历史沿革
包为民
蔡庆东
常海滨
陈光
陈光
陈光
陈国谦
陈建霖
陈默涵
陈默涵
陈璞
陈璞
陈十一
陈威
陈伟
陈伟
陈伟
陈祥宝
陈永强
陈永强
陈正
陈正
陈帜
陈帜
程承旗
程承旗
楚天广
楚天广
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
邓航
<p class="MsoNormal">
<span style="font-size:12px;">注:“</span><span style="font-size:12px;">*</span><span style="font-size:12px;">”
代表通讯作者</span><span></span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, H.
Breunig, J. Apte, J., Y. Qin, An Early Career Perspective on the Opportunities
and Challenges of Team Science, </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2022, </span><span><a href="https://doi.org/10.1021/acs.est.1c08322"><span style="font-family:"font-size:12px;">https://doi.org/10.1021/acs.est.1c08322</span></a></span><span style="font-family:"font-size:12px;">.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, J.
Poonoosamy, S. Molins, A reactive transport modeling perspective on the
dynamics of interface-coupled dissolution-precipitation, </span><i><span style="font-family:"font-size:12px;">Applied Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2022, 137, 105207.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">P. Li, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, S. Molins, The Effect
of Pore-Scale Two-Phase Flow on Mineral Reaction Rates, </span><i><span style="font-family:"font-size:12px;">Frontiers in Water</span></i><span style="font-family:"font-size:12px;">,
2022, https://doi.org/10.3389/frwa.2021.734518.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">Q. Zhang, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, Y. Dong*, S.
Molins, X. Li, C.I. Steefel, Investigation of coupled processes in fractures
and the bordering matrix via a micro-continuum reactive transport model, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2022, e2021WR030578.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.
Tournassat, S. Molins, F. Claret, C.I. Steefel, A Pore‐Scale
Investigation of Mineral Precipitation Driven Diffusivity Change at the Column‐Scale, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2021, doi: 10.1029/2020WR028483.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, A.
Navarre-Sitchler, E. Heil, C. Peters, Addressing Water and Energy Challenges
with Reactive Transport Modeling, </span><i><span style="font-family:"font-size:12px;">Environmental Engineering Science</span></i><span style="font-family:"font-size:12px;">,
2021, 38(3), pp 109-114.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*,</span></b><span style="font-family:"font-size:12px;"> J.
Fitts, T.V. Ryan, J.J. Kim, C.A. Peters, Acid erosion of carbonate fractures
and accessibility of arsenic-bearing minerals: </span><i><span style="font-family:"font-size:12px;">In Operando</span></i><span style="font-family:"font-size:12px;"> synchrotron-based microfluidics experiment, </span><i><span style="font-family:"font-size:12px;">Environmental
Science & Technology</span></i><span style="font-family:"font-size:12px;">, 2020, 54(19), pp 12502–12510. </span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, N.
Spycher, Modeling Reactive Transport Processes in Fractures, </span><i><span style="font-family:"font-size:12px;">Reviews in Mineralogy and Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2019, 85(1), pp 49-74.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, S.
Molins, D. Trebotich, C.I. Steefel, D.J. DePaolo, Pore-scale numerical
investigation of the impacts of surface roughness: upscaling of reaction rates
in rough fractures, </span><i><span style="font-family:"font-size:12px;">Geochimica et
Cosmochimica Acta</span></i><span style="font-family:"font-size:12px;">, 2018, 239, pp 374-389.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.I.
Steefel, S. Molins, D.J. DePaolo. Fracture Evolution in Multimineral Systems:
The Role of Mineral Composition, Flow Rate, and Fracture Aperture
Heterogeneity. </span><i><span style="font-family:"font-size:12px;">Earth and Space Chemistry</span></i><span style="font-family:"font-size:12px;">,
2018, 22 (2), pp 112-124.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, M.
Voltolini, S. Molins, C.I. Steefel, D.J. DePaolo, J. Ajo-Franklin, L. Yang.
Alteration and Erosion of Rock Matrix Bordering a Carbonate-Rich Shale
Fracture. </span><i><span style="font-family:"font-size:12px;">Environmental Science &
Technology</span></i><span style="font-family:"font-size:12px;">, 2017, 51 (15), pp 8861–8868.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, J.M.
Bielicki, M. Oppenheimer, J.P. Fitts, C.A. Peters. Leakage Risks of Geologic CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;"> Storage and the Impacts on the Global Energy System and Climate Change
Mitigation. </span><i><span style="font-family:"font-size:12px;">Climatic Change,</span></i><span style="font-family:"font-size:12px;"> 2017,
144 (2), pp 151-163. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*, </span></b><span style="font-family:"font-size:12px;">S.
Molins, C.I. Steefel, D.J. DePaolo, M. Voltolini, L. Yang, J. Ajo-Franklin. A
2.5D Reactive Transport Model for Fracture Alteration Simulation. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2016, 50 (14), pp 7564-7571.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H.
Deng, </span></b><span style="font-family:"font-size:12px;">J.P. Fitts, D. Crandall, D. McIntyre, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">.
Alterations of Fractures in Carbonate Rocks by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified Brines. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2015, 49(16), pp 10226-10234. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">, B.R.
Ellis, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">, J.P. Fitts, D. Crandall, G.S. Bromhal,
Modifications of Carbonate Fracture Hydrodynamic Properties by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified
Brine Flow. </span><i><span style="font-family:"font-size:12px;">Energy & Fuels</span></i><span style="font-family:"font-size:12px;">, 2013,
27(8), pp 4221-4231.</span>
</p>
邓航
<p class="MsoNormal">
<span style="font-size:12px;">注:“</span><span style="font-size:12px;">*</span><span style="font-size:12px;">”
代表通讯作者</span><span></span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, H.
Breunig, J. Apte, J., Y. Qin, An Early Career Perspective on the Opportunities
and Challenges of Team Science, </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2022, </span><span><a href="https://doi.org/10.1021/acs.est.1c08322"><span style="font-family:"font-size:12px;">https://doi.org/10.1021/acs.est.1c08322</span></a></span><span style="font-family:"font-size:12px;">.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, J.
Poonoosamy, S. Molins, A reactive transport modeling perspective on the
dynamics of interface-coupled dissolution-precipitation, </span><i><span style="font-family:"font-size:12px;">Applied Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2022, 137, 105207.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">P. Li, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, S. Molins, The Effect
of Pore-Scale Two-Phase Flow on Mineral Reaction Rates, </span><i><span style="font-family:"font-size:12px;">Frontiers in Water</span></i><span style="font-family:"font-size:12px;">,
2022, https://doi.org/10.3389/frwa.2021.734518.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">Q. Zhang, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, Y. Dong*, S.
Molins, X. Li, C.I. Steefel, Investigation of coupled processes in fractures
and the bordering matrix via a micro-continuum reactive transport model, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2022, e2021WR030578.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.
Tournassat, S. Molins, F. Claret, C.I. Steefel, A Pore‐Scale
Investigation of Mineral Precipitation Driven Diffusivity Change at the Column‐Scale, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2021, doi: 10.1029/2020WR028483.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, A.
Navarre-Sitchler, E. Heil, C. Peters, Addressing Water and Energy Challenges
with Reactive Transport Modeling, </span><i><span style="font-family:"font-size:12px;">Environmental Engineering Science</span></i><span style="font-family:"font-size:12px;">,
2021, 38(3), pp 109-114.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*,</span></b><span style="font-family:"font-size:12px;"> J.
Fitts, T.V. Ryan, J.J. Kim, C.A. Peters, Acid erosion of carbonate fractures
and accessibility of arsenic-bearing minerals: </span><i><span style="font-family:"font-size:12px;">In Operando</span></i><span style="font-family:"font-size:12px;"> synchrotron-based microfluidics experiment, </span><i><span style="font-family:"font-size:12px;">Environmental
Science & Technology</span></i><span style="font-family:"font-size:12px;">, 2020, 54(19), pp 12502–12510. </span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, N.
Spycher, Modeling Reactive Transport Processes in Fractures, </span><i><span style="font-family:"font-size:12px;">Reviews in Mineralogy and Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2019, 85(1), pp 49-74.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, S.
Molins, D. Trebotich, C.I. Steefel, D.J. DePaolo, Pore-scale numerical
investigation of the impacts of surface roughness: upscaling of reaction rates
in rough fractures, </span><i><span style="font-family:"font-size:12px;">Geochimica et
Cosmochimica Acta</span></i><span style="font-family:"font-size:12px;">, 2018, 239, pp 374-389.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.I.
Steefel, S. Molins, D.J. DePaolo. Fracture Evolution in Multimineral Systems:
The Role of Mineral Composition, Flow Rate, and Fracture Aperture
Heterogeneity. </span><i><span style="font-family:"font-size:12px;">Earth and Space Chemistry</span></i><span style="font-family:"font-size:12px;">,
2018, 22 (2), pp 112-124.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, M.
Voltolini, S. Molins, C.I. Steefel, D.J. DePaolo, J. Ajo-Franklin, L. Yang.
Alteration and Erosion of Rock Matrix Bordering a Carbonate-Rich Shale
Fracture. </span><i><span style="font-family:"font-size:12px;">Environmental Science &
Technology</span></i><span style="font-family:"font-size:12px;">, 2017, 51 (15), pp 8861–8868.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, J.M.
Bielicki, M. Oppenheimer, J.P. Fitts, C.A. Peters. Leakage Risks of Geologic CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;"> Storage and the Impacts on the Global Energy System and Climate Change
Mitigation. </span><i><span style="font-family:"font-size:12px;">Climatic Change,</span></i><span style="font-family:"font-size:12px;"> 2017,
144 (2), pp 151-163. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*, </span></b><span style="font-family:"font-size:12px;">S.
Molins, C.I. Steefel, D.J. DePaolo, M. Voltolini, L. Yang, J. Ajo-Franklin. A
2.5D Reactive Transport Model for Fracture Alteration Simulation. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2016, 50 (14), pp 7564-7571.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H.
Deng, </span></b><span style="font-family:"font-size:12px;">J.P. Fitts, D. Crandall, D. McIntyre, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">.
Alterations of Fractures in Carbonate Rocks by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified Brines. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2015, 49(16), pp 10226-10234. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">, B.R.
Ellis, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">, J.P. Fitts, D. Crandall, G.S. Bromhal,
Modifications of Carbonate Fracture Hydrodynamic Properties by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified
Brine Flow. </span><i><span style="font-family:"font-size:12px;">Energy & Fuels</span></i><span style="font-family:"font-size:12px;">, 2013,
27(8), pp 4221-4231.</span>
</p>
邸元
邸元
丁陈森
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[1] <b>C.S. Ding</b>, R.R. Deokar, H.J. Lian, Y.J. Ding, G.Y.
Li, X.Y. Cui, K.K. Tamma. S.P.A. Bordas. Resolving high
frequency issues via proper orthogonal decomposition based dynamic isogeometric
analysis for structures with dissimilar materials. <b><i>Computer Methods in Applied
Mechanics and Engineering.</i> </b>359(2020)112753.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[2] <b>C.S. Ding, </b>R.R. Deokar, Y.J. Ding, G.Y. Li, K.K.
Tamma, X.Y. Cui, S.P.A. Bordas. Model order reduction accelerated Monte Carlo
stochastic isogeometric method for the analysis of structures with
high-dimensional and independent material uncertainties. <b><i>Computer Methods in Applied
Mechanics and Engineering, </i></b>349(2019) 266-284. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[3] <b>C.S. Ding, </b>X.B. Hu, X.Y. Cui, G.Y. Li, Y. Cai, K.K.
Tamma, Isogeometric generalized nth order perturbation-based stochastic method
for exact geometric modeling of (composite) structures: Static and dynamic
analysis with random material parameters. <b><i>Computer Methods in Applied Mechanics and
Engineering, </i></b>346(2019) 1002-1024.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[4] <b>C.S. Ding, </b>X.Y. Cui, G.Y. Huang, G.Y. Li, K.K. Tamma,
Exact and efficient isogeometric reanalysis of accurate shape and boundary
modifications. <b><i>Computer Methods in Applied Mechanics and Engineering,</i></b>318(2017)
619-635.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
<a name="OLE_LINK28"></a><a name="OLE_LINK27"></a>[5] <b>C.S. Ding,</b> K.K. Tamma, H.
Lian, Y. Ding, T.J. Dodwell, S.P.A. Bordas, Uncertainty Quantification of
spatially uncorrelated loads with a reduced-order stochastic isogeometric
method. <b><i>Computational Mechanics </i></b><b>67 </b>(2021)<b> </b>1255–1271.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[6] <b>C.S. Ding, </b>X.Y. Cui, R.R. Deokar, G.Y. Li, Y. Cai,
K.K. Tamma, Proper orthogonal decomposition Monte Carlo simulation based
isogeometric stochastic method for material, geometric and force
multi-dimensional uncertainties. <b><i>Computational Mechanics</i></b><i>,</i> 63(3) (2019)521-533.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[7] <b>C.S. Ding, </b>X.Y, Cui, G.Y. Li, Accurate analysis and
thickness optimization of tailor rolled blanks based on isogeometric analysis. <b><i>Structural
and Multidisciplinary Optimization</i></b><i>, </i>54(4) (2016) 871-887. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[8] <b>C.S. Ding</b>, K.K. Tamma, Y.J. Ding, X.Y. Cui, G.Y.
Li, S.P.A. Bordas. A n-th order perturbation based stochastic isogeometric
method for quantifying geometric uncertainty in shell structures. <b><i>Advances
in Engineering Softwar</i>e</b><i>,</i> 148
(2020) 102866.
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
<a name="OLE_LINK10"></a><a name="OLE_LINK9"></a><a name="OLE_LINK18"></a><a name="OLE_LINK17"></a>[9] <b>C.S. Ding, </b>X.Y.
Cui, R.R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma,
Modeling and simulation of steady heat transfer analysis with material
uncertainty: Generalized nth order perturbation isogeometric stochastic method. <b><i>Numerical
Heat Transfer, Part A: Applications</i></b><i>.</i><b> </b>74(09) (2018)1565-1582.<b> (IF= 2.928, JCR Q2)</b>
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[10] <b>C.S. Ding,</b> X.Y. Cui, R R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma, An isogeometric independent
coefficients (IGA-IC) reduced order method for accurate and efficient transient
nonlinear heat conduction analysis. <b><i>Numerical Heat Transfer, Part A:
Applications, </i></b>73(10) (2018) 667-684.
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[11] <b>C.S. Ding</b>,
X.Y. Cui, G.X. Huang, G.Y. Li, K.K. Tamma, Isogeometric independent
coefficients method for fast reanalysis of structural modifications. <b><i>Engineering
Computations. </i></b>37(4) (2019) 1341-1368<b>. </b>
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[12] <b>C.S. Ding, </b>X.Y.
Cui, G.X. Huang, G.Y. Li, Y. Cai, K.K. Tamma, A gradient-based shape
optimization scheme via isogeometric exact reanalysis. <b><i>Engineering Computations, </i></b>35 (8) (2018) 2696-2721.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[13] <b>C.S.
Ding,</b> X.Y.<b> </b>Cui, G.Y. Li, A multi-level refinement
adaptive scheme with high efficiency and accuracy, <b><i>Engineering Computations</i></b><i>,</i> 33(7) (2016) 2216-2236. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[14] B. Wang, Y. Cai<b>*</b>, X.Y. Cui, <b>C.S. </b><b>Ding*, </b>Z.C. Li,Stochastic stable node-based smoothed
finite element method for uncertainty and reliability analysis of
thermo-mechanical problems<b><i>. Engineering Analysis with Boundary
Elements </i></b>114 (2020) 23-44<b>.</b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[15] L.L. Chen, Y. Zhang, H. Lian∗, E. Atroshchenko, <b>C.S. Ding</b><b>∗</b><b>,</b> S.P.A. Bordas, Seamless integration of
computer-aided geometric modeling and acoustic simulation: isogeometric
boundary element methods based on Catmull-Clark subdivision surfaces. <b><i>Advances in Engineering Softwar</i></b><b>e </b>149 (2020). 102879.<b></b>
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段志生
段志生
1910
北京大学的工科教育历史悠久,1910年3月即组织了工学院(当时称工科分科大学),下设土木、矿冶两个系(当时称门)。1916年以后,北大工学院经过停办、再建、扩大,到1952年已培养了近 5000名学生;其后工学院的师生中陆续有23人(教师12人、毕业生11人)入选两院院士。
方竞
冯帆
<p class="MsoNormal">
<span lang="EN-GB">Google Scholar: https://scholar.google.com/citations?user=7sla8m0AAAAJ<o:p></o:p></span>
</p>
<p class="MsoNormal">
<b><span lang="EN-GB"><o:p> </o:p></span></b>
</p>
<p class="MsoNormal">
<span lang="EN-GB">[1] F. Feng, P. Plucinsky, and R. D. James.
Phase transformations and compatibility in </span>helical structures. Journal of the
Mechanics and Physics of Solids, 131:74–95, 2019.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[2] F. Feng, P. Plucinsky, and R. D. James.
Helical Miura origami. Physical Review E,</span>101(3):033002, 2020.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[3] F. Feng, X. Dang, R. D. James, and P.
Plucinsky. The designs and deformations of rigidly </span>and flat-foldable quadrilateral mesh
origami. Journal of the Mechanics and Physics of Solids, page 104018, 2020.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[4] F. Feng, J. S. Biggins, and M. Warner.
Evolving, complex topography from combining </span>centers of Gaussian curvature. Physical
Review E, 102(1):013003, 2020.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[5] H. Liu, P. Plucinsky, F. Feng, and R.
D. James. Origami and materials science. Philo-</span>sophical Transactions of the Royal Society
A, 379(2201):20200113, 2021.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[6] X. Dang, F. Feng, H. Duan, and J. Wang.
Theorem on the compatibility of spherical </span>kirigami tessellations. Physical Review
Letters, 128(3):035501, 2022.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[7] X. Dang, F. Feng, P. Plucinsky, R. D.
James, H. Duan, and J. Wang. Inverse design of </span>deployable origami structures that
approximate a general surface. International Journal of Solids and Structures, 234:111224, 2022.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[8] F. Feng, D. Duffy, M. Warner, and J. S.
Biggins. Interfacial metric mechanics: stitch-</span>ing patterns of shape change in active
sheets. Proceedings of the Royal Society A, 478(2262):20220230, 2022.
</p>
<p class="MsoNormal">
<span lang="EN-GB">[9] M. Barnes, F. Feng, and J. S. Biggins.
Surface instability in a nematic elastomer. Physical Review Letters,
131:238101, 2023.<o:p></o:p></span>
</p>
符策基
符策基
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
何冠楠
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <b><span>G. He</span></b><span>, Q. Chen, P. Moutis, S. Kar, and J. F. Whitacre*, "An
Intertemporal Decision Framework for Electrochemical Energy Storage
Management," <i>Nature Energy</i>, 3, 404-412 (2018).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <b><span>G. He</span></b><span>, J. Michalek, S. Kar, Q. Chen, D. Zhang*, and J. F. Whitacre*,
"Utility-Scale Portable Energy Storage Systems," <i>Joule</i>, 5,
379-392 (2021). </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b><span>G. He</span></b><span>*, D. S. Mallapragada, A. Bose, C. F. Heuberger, and E. Gençer,
"Sector coupling via hydrogen to lower the cost of energy system
decarbonization," <i>Energy & Environmental Science,</i> 14, 4635-4646
(2021).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>J. Wang, L. Chen, Z. Tan, E. Du,
N. Liu, J. Ma, M. Sun, C. Li, J. Song, X. Lu*, C. W. Tan*, and <b>G. He</b>*. "Inherent
spatiotemporal uncertainty of renewable power in China," <i>Nature
Communications</i>, 14(1), 5379 (2023).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <span>J. Zhang, Y. Wang, B. Jiang, H.
He, S. Huang, C. Wang, Y. Zhang, X. Han, D. Guo, <b>G. He</b>* and M. Ouyang*. "Realistic
fault detection of li-ion battery via dynamical deep learning," <i>Nature
Communications</i>, 14(1), 5940. (2023).</span>
</p>
何冠楠
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <b><span>G. He</span></b><span>, Q. Chen, P. Moutis, S. Kar, and J. F. Whitacre*, "An
Intertemporal Decision Framework for Electrochemical Energy Storage
Management," <i>Nature Energy</i>, 3, 404-412 (2018).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <b><span>G. He</span></b><span>, J. Michalek, S. Kar, Q. Chen, D. Zhang*, and J. F. Whitacre*,
"Utility-Scale Portable Energy Storage Systems," <i>Joule</i>, 5,
379-392 (2021). </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b><span>G. He</span></b><span>*, D. S. Mallapragada, A. Bose, C. F. Heuberger, and E. Gençer,
"Sector coupling via hydrogen to lower the cost of energy system
decarbonization," <i>Energy & Environmental Science,</i> 14, 4635-4646
(2021).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>J. Wang, L. Chen, Z. Tan, E. Du,
N. Liu, J. Ma, M. Sun, C. Li, J. Song, X. Lu*, C. W. Tan*, and <b>G. He</b>*. "Inherent
spatiotemporal uncertainty of renewable power in China," <i>Nature
Communications</i>, 14(1), 5379 (2023).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <span>J. Zhang, Y. Wang, B. Jiang, H.
He, S. Huang, C. Wang, Y. Zhang, X. Han, D. Guo, <b>G. He</b>* and M. Ouyang*. "Realistic
fault detection of li-ion battery via dynamical deep learning," <i>Nature
Communications</i>, 14(1), 5940. (2023).</span>
</p>
贺贤土
黄建永
黄建永
黄建永
黄琳
黄琳
1952
1952年全国院系调整,北大工学院的机械、电机、土木、建筑四个系合并到清华大学,化工系合并到天津大学;北京大学工学院建制取消。
黄天云
黄天云
黄天云
黄源浩
黄源浩
黄迅
黄迅
黄迅
黄迅
黄迅
康炜
孔诗涵
<p>
1. A NSGA-II-based calibration algorithm for underwater binocular vision measurement system.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Instrumentation and Measurement</span>
</p>
<p>
2. ESO-based controller with model predictive governor for 3D trajectory tracking of underactuated underwater vehicles.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Industrial Informatics</span></span>
</p>
<p>
3. IWSCR: An intelligent water surface cleaner robot for collecting floating garbage.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Systems, Man, and Cybernetics: Systems</span>
</p>
<p>
4. An FM*-based comprehensive path planning system for robotic floating garbage cleaning.IEEE Transactions on <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">Intelligent Transportation Systems</span>
</p>
<p style="text-wrap:wrap;">
<span style="text-wrap:wrap;">5. Piecewise compensation model predictive governor combined with conditional disturbance negation for underactuated AUV tracking control.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Industrial Electronics</span></span>
</p>
<p style="text-wrap:wrap;">
6. A collision-free target tracking controller with uncertain disturbance rejection for quadruped robots.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Intelligent Vehicles</span>
</p>
<p>
<br />
</p>
<p>
<br />
</p>
<p>
<br />
</p>
黎波
<p class="MsoNoSpacing" style="margin-left:0cm;">
<span><span style="font-size:14px;font-family:"">H.
Wang, X. Li, M. Phipps, B. Li*, Numerical and Experimental Study of Hot
Pressing Technique for Resin-based Friction Composites, </span><i><span style="font-size:14px;font-family:"">Composite Part A: Applied Science and Manufacturing</span></i><span style="font-size:14px;font-family:"">, Vol
153:106737, 2022.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">H.
Jiang, V. Scott, B. Li*, Modeling and simulations of high and hypervelocity
impact of small ice particles, </span><i><span style="font-size:14px;font-family:"">International
Journal of Impact Engineering</span></i><span style="font-size:14px;font-family:"">, Vol 155, 103906, 2021.</span></span>
</p>
<p class="MsoNoSpacing" style="margin-left:0cm;">
<span><span style="font-size:14px;font-family:"">Z.
Fan, H. Wang, H. Liao, J. Fan, X. Li, B. Li*, A Lagrangian Meshfree Mesoscale
Simulation of Powder Bed Fusion Additive Manufacturing of Metals, </span><i><span style="font-size:14px;font-family:"">International Journal for Numerical Methods
in Engineering</span></i><span style="font-size:14px;font-family:"">, 122(2), 483-514, 2020. </span></span>
</p>
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<span><span style="font-size:14px;font-family:"">H. Wang, Z. Fan, H. Liao, J. Fan, L.
Stainier, X. Li, B. Li*, The Hot Optimal Transportation Meshfree (HOTM) Method
for Materials under Extreme Dynamic Thermomechanical Conditions, </span><i><span style="font-size:14px;font-family:"">Computer Methods in Applied Mechanics and
Engineering</span></i><span style="font-size:14px;font-family:"">, 364:112958, 2020.</span></span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">H. Jiang, J. Fan, D. Hu, R. Wang, J. Lu, B.
Li*, Numerical Modeling of Compressive Failure Mechanisms in Ceramic Materials
at High Strain Rates, </span><i><span style="font-size:14px;font-family:"">Computer Methods in
Applied Mechanics and Engineering</span></i><span style="font-size:14px;font-family:"">, 347:806-826, 2019.</span></span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">J. Fan, H. Liao, R. Ke, E. Kucukal, U.
Gurkan, J. Lu, B. Li*, A Monolithic Lagrangian Meshfree Scheme for
Fluid-Structure Interaction Problems within the OTM Framework, </span><i><span style="font-size:14px;font-family:"">Computer Methods in Applied Mechanics and
Engineering</span></i><span style="font-size:14px;font-family:"">, 337:198-219, 2018.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">J. Fan, H. Liao, H. Wang, J. Hu, Z. Chen,
J. Lu, B. Li*, Local maximum-entropy based surrogate model and its application
to structural reliability analysis, </span><i><span style="font-size:14px;font-family:"">Structural
and Multidisciplinary Optimization</span></i><span style="font-size:14px;font-family:"">, 57: 373-392, 2018.</span></span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">B. Li, A. Pandolfi, M. Ortiz*,
Material-Point Erosion Simulation of Dynamic Fragmentation of Metals, </span><i><span style="font-size:14px;font-family:"">Mechanics of Materials</span></i><span style="font-size:14px;font-family:"">, 80: 288-297,
2015.</span></span>
</p>
<p class="MsoNormal">
<span style="font-size:14px;font-family:"">B. Li, A. Kidane, G. Ravichandran and M.
Ortiz*, Verification and Validation of the Optimal Transportation Meshfree
(OTM) Simulation of Terminal Ballistics, International Journal of Impact
Engineering, 42: 25-36, 2012.</span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">B. Li, F. Habbal and M. Oritz*, Optimal
Transportation Meshfree Approximation Schemes for Fluid and Plastic Flows, </span><i><span style="font-size:14px;font-family:"">International Journal for Numerical Methods
in Engineering</span></i><span style="font-size:14px;font-family:"">, 83: 1541-1579, 2010.</span></span>
</p>
李阿明
李阿明
李阿明
李阿明
李存标
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X Y, Lee C B, Chen X, et al. <a data-cke-saved-href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" target="_blank" style="color:#0782C1;">Structure evolution at early stage of boundary-layer transition: simulation and experiment</a>[J]. <em>Journal of Fluid Mechanics</em>, 2020, 890A11.</span></span></span><br />
<strong><span style="font-family:宋体;"><strong>(该文被选入<span lang="EN-US">SciSpace Newsletter Series)</span></strong></span></strong>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu W, Shi M, Zhu Y, et al. Experimental study of hypersonic boundary layer transition on a permeable wall of a flared cone[J]. <em>Physics of Fluids</em>, 2020, 32(1): 011701.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zou T, Lee C. Rotor boundary layer development in a two-stage compressor[J]. <em>Physics of Fluids</em>, 2019, 31(12): 123606.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Jiang X. Flow structures in transitional and turbulent boundary layers[J]. <em>Physics of Fluids</em>, 2019, 31(11): 111301.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X, Lee C. Numerical simulation of K-, N-and O-regime boundary-layer transition at early nonlinear stage[J]. <em>INCAS Bulletin</em>, 2019, 11(3): 77-86.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Si W, Huang G, Zhu Y, et al. Hypersonic aerodynamic heating over a flared cone with wavy wall[J].<em> Physics of Fluids</em>, 2019, 31(5): 051702.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu Y, Jiang X, Zhang Y, et al. Iterative PIV interrogation for complex wall-bounded flows[J].<em> Measurement Science and Technology</em>, 2019, 30(9): 095302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen X, Huang G, Lee C. Hypersonic boundary layer transition on a concave wall: stationary Görtler vortices[J]. <em>Journal of Fluid Mechanics</em>, 2019, 865: 1-40</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Xiao Z, Chen S. Preface: symposium on turbulence structures and aerodynamic heat/force (STSAHF2018)[J]. <em>Applied Mathematics and Mechanics</em>, 2019, 40(2): 181-184.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu Y, Chen X, Wu J, et al. Aerodynamic heating in transitional hypersonic boundary layers: role of second-mode instability[J]. <em>Physics of Fluids</em>, 2018, 30(1): 011701.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu <span style="letter-spacing:-0.8pt;">Y, </span>Lee C, Chen X, et al. Newly identified principle for aerodynamic heating in hypersonic flows[J]. <em>Journal of Fluid Mechanics</em>, 2018, 855: 152-180.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia L, Zou T, Zhu Y, et al. Rotor boundary layer development with inlet guide vane (IGV) wake impingement[J]. <em>Physics of Fluids</em>, 2018, 30(4): 040911.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Chen S. Recent progress in the study of transition in the hypersonic boundary layer[J]. <em>National Science Review</em>, 2018, 6(1): 155-170</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Yang L, Shu C, Yang W, et al. An implicit simplified sphere function-based gas kinetic scheme for simulation of 3D incompressible isothermal flows[J]. <em>Computers & Fluids, </em>2018, 160: 204-218.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Lee C B, Zhao N. Preface to Special Topic: Papers Selected from the 7th <em>International Symposium on Physics of Fluids</em>, Guiyang, China, 2017[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Cai Q, Lee C, et al. Proceedings of the Seventh I<em>nternational Symposium on Physics of Fluids </em>(ISPF7) Preface[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, X., Zhu, <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C. B. 2017 Interactions between second mode and low- frequency waves in a hypersonic boundary <span style="letter-spacing:-0.15pt;">layer. </span><em>Journal of Fluid Mechanics</em>. 820: 693-735.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia, L. C., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Jia, <span style="letter-spacing:-0.8pt;">Y. </span>X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., C. B. Lee 2017, Image-processing method for near-wall PIV measurements around a moving interface. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>28, 035201.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhang, C. H., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen, X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C.B. and Gad-el-Hak, M. 2015, Transition in hypersonic boundary layers. <em>AIP Advances </em>5,107137</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;"><span style="letter-spacing:-0.2pt;">Tang, </span>Q., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen X., Lee, C. B. 2015, Development of second-mode instability in a Mach 6 flat plate boundary layer with two-dimensional roughness. <em>Phys. Fluids </em>27, 064105.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., and Lee, C. B. 2015, Experimental investigations of the initial growth of flow asymmetries over a slender body of revolution at high angles of attack. <em>Phys. Fluids </em>27, 084103.Zhang, C. H., <span style="letter-spacing:-0.2pt;">Tang,</span> Q. & Lee, C. B. 2013, Hypersonic boundary-layer transition on a flared cone. <em>Acta Mech. Sin. </em>29 (1), 48–53.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Su, Z., Zhong, H. J., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2013, Experimental investigation of freely falling thin disks. Part 2: Transition of three- dimensional motion from zigzag to spiral. <em>Journal of Fluid Mechanics</em>. 732, 77– 104.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Zhang, C. H. & Lee, C. B. 2013, Image preprocessing method for near-wall particle image velocimetry (PIV) image interrogation with very large in-plane displacement. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>24, 125302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B., Su, Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z.2013, Experimental of freely falling thin disks. Part 1: The flow structures and Reynolds number effects on the zigzag motion. <em>Journal of Fluid Mechanics. </em>716, 228–250.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Hong-Jie, Zhong, Cun-Biao. 2012, The wake of falling disks at low reynolds numbers. <em>Acta Mech. Sin., </em>28(2), 367-371.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S.Z., Xu, K. and Lee, C.B. 2012, The dynamic mechanism of a moving Crookes radiometer, <em>Phys. Fluids </em>24, <span style="letter-spacing:-0.15pt;">111701.</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Xu, K., Lee, C. B., Cai, Q. D. 2012, A unified gas kinetic scheme with moving mesh and velocity space adaptation<em>. J. Comput. Phys</em>. 231(20): 6643-6664.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Jin, C. Q., Lee, C. B., Cai, Q. D. 2011, Gas kinetic scheme with discontinuous derivative for low speed flow computation, <em>J. Comput. Phys, </em>230 (5): 2045-2059</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Zhou, M. D., Hussain, <span style="letter-spacing:-0.5pt;">F. </span>2011, Experimental studies of surface waves inside a cylindrical container. <em>Journal of Fluid Mechanics. </em>677, 39–62.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Chen, S. <span style="letter-spacing:-0.8pt;">Y. </span>& Lee, C. B. 2011, Experimental study of freely falling thin disks: Transition from planar zigzag to spiral. <em>Phys. Fluids </em>23, 011702.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, M., Lee, C. B. 2010, Frontal instability of lock-exchange gravity currents, <em>Mod. Phys. Lett. B</em>, 24 (13): 1369-1372</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B. 2009, Paths of freely falling disks. <em>Mod. Phys. Lett. B </em>23 (3), 373–376.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span>Lee, C. B. 2009, Periodic tripling and jet eruption of forced steep gravity waves, <em>Mod. Phys. Lett. B, </em>23 (3): 397-400</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2008 Transition in wall-bounded flows. <em>Appl. Mech. <span style="letter-spacing:-0.25pt;">Rev. </span></em>61, 030802.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W.,</span> Li, R. Q., Cheng, S. Z., Lee, C. B.2008, Correlation dimension analysis and capillary wave turbulence in Dragon-Wash phenomena, <em>Chinese Phys. B, </em>17 (2): 637-643</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Li, R. Q. 2007Dominant structure for turbulent production in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>J. of Turbulence., </em>8 (55): 1-34</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">H. <span style="letter-spacing:-0.6pt;">W. </span>Peng, H. <span style="letter-spacing:-0.2pt;">J.Yuan, </span>D. J. <span style="letter-spacing:-0.25pt;">Wang, </span>S. Z. Chen, C. B. Lee 2006, <em>Journal of Hydrodynamics, <span style="letter-spacing:-0.35pt;">Ser. </span>B, </em>18(3), 507-510</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">J. B. Zhu, C. B. Lee 2006, PIV observation of instantaneous velocity structure of lock release gravity currents in the slumping phase, <em>Communications in Nonlinear Science and Numerical Simulation </em>11(2), 262-270</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">C. B. Lee, R. Li, 2006, Recent progress in dynamics of boundary layer transition, <em>Journal of Hydrodynamics, Ser. B</em>, 18(3), 26-30</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Lee, C. B. 2005, Breakup of oil film with holes on quiescent water surface, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1591-1594</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.25pt;">Wang, </span>D. J., Lee, C. B. 2005, Nonlinear low frequency water waves in a cylindrical shell, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1615-1618</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2005, Problems in the paper "A link between chaos dynamics and the onset of turbulence in a transitional boundary layer", <em>Acta Phys. Sin. </em>54 (1): 481-482</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Cai, Q. D., Lee, C. B.2004, Limitation for the energy spectrum analysis for the understanding of the turbulent cascade, <em>Acta Phys. Sin</em>., 53 (9): 3090-3093</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Li, R. Q., Li, C. B. 2004, A link between the turbulent cascade and the dynamics of transition, <em>Acta Phys. Sin.</em>, 53 (8): 2621-2624</span></span></span>
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<li value="45" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2003, Breakdown of the chain of ring vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics, </em>12 (12): 1429-1434</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2002, A link between chaos dynamics and the onset of turbulence in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (8): 1743-1749</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. </span>R., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Meyer, D., Rist, U., Lian, Q. X., Lee, C. B.2002, Late-stage transitional boundary-layer structures. Direct numerical simulation and experiment, <em>Theroet. Comput. Fluid Dyn</em>. 15 (5): 317-337</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Gong, A. L., Li, R. Q., Lee, C. B. 2002, On the generation of low-frequency signals in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (5): 1068-1074</span></span></span>
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<li value="49" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2001, On the formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Exp. Fluids, </em>30 (3): 354-357</span></span></span>
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<li value="50" style="margin-right:8.4pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001, On the formation of the streamwise vortex in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin.</em>, 50 (1): 182-184</span></span></span>
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<li value="51" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001. On the dynamics in a transitional boundary <span style="letter-spacing:-0.15pt;">layer,</span> <em>Communications in Nonlinear Science and Numerical Simulation</em>, 6(3), <span style="letter-spacing:-0.15pt;">111-171</span></span></span></span>
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<li value="52" style="margin-right:5.05pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.2000 Possible universal transitional scenario in a flat plate boundary layer: Measurement and visualization, <em>Phys. <span style="letter-spacing:-0.25pt;">Rev. </span>E, </em>62 (3): 3659-3670</span></span></span>
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<li value="53" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S.2000 Formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics Letters</em>, 17 (8): 583-585</span></span></span>
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<li value="54" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2000 On the breakdown of a long streak in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics</em>, 9 (7): 508-514</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Hong, Z. X., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. V. </span>2000 A study in transitional flat plate boundary layers: measurement and visualization, <em>Exp. Fluids</em>, 28 (3): 243-251</span></span></span>
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<li value="56" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.1998 New features of CS solitons and the formation of vortices, <em>Phys. Lett. A, </em>247 (6): 397-402</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.25pt;">Wang, </span>S. 1995 Study of the shock motion in a hypersonic shock system/turbulent boundary layer interaction. <em>Exp. Fluids</em>,19(3), 143-149.</span></span></span>
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李存标
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X Y, Lee C B, Chen X, et al. <a data-cke-saved-href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" target="_blank" style="color:#0782C1;">Structure evolution at early stage of boundary-layer transition: simulation and experiment</a>[J]. <em>Journal of Fluid Mechanics</em>, 2020, 890A11.</span></span></span><br />
<strong><span style="font-family:宋体;"><strong>(该文被选入<span lang="EN-US">SciSpace Newsletter Series)</span></strong></span></strong>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu W, Shi M, Zhu Y, et al. Experimental study of hypersonic boundary layer transition on a permeable wall of a flared cone[J]. <em>Physics of Fluids</em>, 2020, 32(1): 011701.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zou T, Lee C. Rotor boundary layer development in a two-stage compressor[J]. <em>Physics of Fluids</em>, 2019, 31(12): 123606.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Jiang X. Flow structures in transitional and turbulent boundary layers[J]. <em>Physics of Fluids</em>, 2019, 31(11): 111301.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X, Lee C. Numerical simulation of K-, N-and O-regime boundary-layer transition at early nonlinear stage[J]. <em>INCAS Bulletin</em>, 2019, 11(3): 77-86.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Si W, Huang G, Zhu Y, et al. Hypersonic aerodynamic heating over a flared cone with wavy wall[J].<em> Physics of Fluids</em>, 2019, 31(5): 051702.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu Y, Jiang X, Zhang Y, et al. Iterative PIV interrogation for complex wall-bounded flows[J].<em> Measurement Science and Technology</em>, 2019, 30(9): 095302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen X, Huang G, Lee C. Hypersonic boundary layer transition on a concave wall: stationary Görtler vortices[J]. <em>Journal of Fluid Mechanics</em>, 2019, 865: 1-40</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Xiao Z, Chen S. Preface: symposium on turbulence structures and aerodynamic heat/force (STSAHF2018)[J]. <em>Applied Mathematics and Mechanics</em>, 2019, 40(2): 181-184.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu Y, Chen X, Wu J, et al. Aerodynamic heating in transitional hypersonic boundary layers: role of second-mode instability[J]. <em>Physics of Fluids</em>, 2018, 30(1): 011701.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu <span style="letter-spacing:-0.8pt;">Y, </span>Lee C, Chen X, et al. Newly identified principle for aerodynamic heating in hypersonic flows[J]. <em>Journal of Fluid Mechanics</em>, 2018, 855: 152-180.</span></span></span>
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<li style="margin-top:0.45pt;margin-right:5.4pt;margin-bottom:0.0001pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia L, Zou T, Zhu Y, et al. Rotor boundary layer development with inlet guide vane (IGV) wake impingement[J]. <em>Physics of Fluids</em>, 2018, 30(4): 040911.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Chen S. Recent progress in the study of transition in the hypersonic boundary layer[J]. <em>National Science Review</em>, 2018, 6(1): 155-170</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Yang L, Shu C, Yang W, et al. An implicit simplified sphere function-based gas kinetic scheme for simulation of 3D incompressible isothermal flows[J]. <em>Computers & Fluids, </em>2018, 160: 204-218.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Lee C B, Zhao N. Preface to Special Topic: Papers Selected from the 7th <em>International Symposium on Physics of Fluids</em>, Guiyang, China, 2017[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Cai Q, Lee C, et al. Proceedings of the Seventh I<em>nternational Symposium on Physics of Fluids </em>(ISPF7) Preface[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, X., Zhu, <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C. B. 2017 Interactions between second mode and low- frequency waves in a hypersonic boundary <span style="letter-spacing:-0.15pt;">layer. </span><em>Journal of Fluid Mechanics</em>. 820: 693-735.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia, L. C., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Jia, <span style="letter-spacing:-0.8pt;">Y. </span>X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., C. B. Lee 2017, Image-processing method for near-wall PIV measurements around a moving interface. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>28, 035201.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhang, C. H., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen, X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C.B. and Gad-el-Hak, M. 2015, Transition in hypersonic boundary layers. <em>AIP Advances </em>5,107137</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;"><span style="letter-spacing:-0.2pt;">Tang, </span>Q., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen X., Lee, C. B. 2015, Development of second-mode instability in a Mach 6 flat plate boundary layer with two-dimensional roughness. <em>Phys. Fluids </em>27, 064105.</span></span></span>
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<li value="21" style="margin-top:1.6pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., and Lee, C. B. 2015, Experimental investigations of the initial growth of flow asymmetries over a slender body of revolution at high angles of attack. <em>Phys. Fluids </em>27, 084103.Zhang, C. H., <span style="letter-spacing:-0.2pt;">Tang,</span> Q. & Lee, C. B. 2013, Hypersonic boundary-layer transition on a flared cone. <em>Acta Mech. Sin. </em>29 (1), 48–53.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Su, Z., Zhong, H. J., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2013, Experimental investigation of freely falling thin disks. Part 2: Transition of three- dimensional motion from zigzag to spiral. <em>Journal of Fluid Mechanics</em>. 732, 77– 104.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Zhang, C. H. & Lee, C. B. 2013, Image preprocessing method for near-wall particle image velocimetry (PIV) image interrogation with very large in-plane displacement. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>24, 125302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B., Su, Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z.2013, Experimental of freely falling thin disks. Part 1: The flow structures and Reynolds number effects on the zigzag motion. <em>Journal of Fluid Mechanics. </em>716, 228–250.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Hong-Jie, Zhong, Cun-Biao. 2012, The wake of falling disks at low reynolds numbers. <em>Acta Mech. Sin., </em>28(2), 367-371.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S.Z., Xu, K. and Lee, C.B. 2012, The dynamic mechanism of a moving Crookes radiometer, <em>Phys. Fluids </em>24, <span style="letter-spacing:-0.15pt;">111701.</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Xu, K., Lee, C. B., Cai, Q. D. 2012, A unified gas kinetic scheme with moving mesh and velocity space adaptation<em>. J. Comput. Phys</em>. 231(20): 6643-6664.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Jin, C. Q., Lee, C. B., Cai, Q. D. 2011, Gas kinetic scheme with discontinuous derivative for low speed flow computation, <em>J. Comput. Phys, </em>230 (5): 2045-2059</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Zhou, M. D., Hussain, <span style="letter-spacing:-0.5pt;">F. </span>2011, Experimental studies of surface waves inside a cylindrical container. <em>Journal of Fluid Mechanics. </em>677, 39–62.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Chen, S. <span style="letter-spacing:-0.8pt;">Y. </span>& Lee, C. B. 2011, Experimental study of freely falling thin disks: Transition from planar zigzag to spiral. <em>Phys. Fluids </em>23, 011702.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, M., Lee, C. B. 2010, Frontal instability of lock-exchange gravity currents, <em>Mod. Phys. Lett. B</em>, 24 (13): 1369-1372</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B. 2009, Paths of freely falling disks. <em>Mod. Phys. Lett. B </em>23 (3), 373–376.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span>Lee, C. B. 2009, Periodic tripling and jet eruption of forced steep gravity waves, <em>Mod. Phys. Lett. B, </em>23 (3): 397-400</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2008 Transition in wall-bounded flows. <em>Appl. Mech. <span style="letter-spacing:-0.25pt;">Rev. </span></em>61, 030802.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W.,</span> Li, R. Q., Cheng, S. Z., Lee, C. B.2008, Correlation dimension analysis and capillary wave turbulence in Dragon-Wash phenomena, <em>Chinese Phys. B, </em>17 (2): 637-643</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Li, R. Q. 2007Dominant structure for turbulent production in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>J. of Turbulence., </em>8 (55): 1-34</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">H. <span style="letter-spacing:-0.6pt;">W. </span>Peng, H. <span style="letter-spacing:-0.2pt;">J.Yuan, </span>D. J. <span style="letter-spacing:-0.25pt;">Wang, </span>S. Z. Chen, C. B. Lee 2006, <em>Journal of Hydrodynamics, <span style="letter-spacing:-0.35pt;">Ser. </span>B, </em>18(3), 507-510</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">J. B. Zhu, C. B. Lee 2006, PIV observation of instantaneous velocity structure of lock release gravity currents in the slumping phase, <em>Communications in Nonlinear Science and Numerical Simulation </em>11(2), 262-270</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">C. B. Lee, R. Li, 2006, Recent progress in dynamics of boundary layer transition, <em>Journal of Hydrodynamics, Ser. B</em>, 18(3), 26-30</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Lee, C. B. 2005, Breakup of oil film with holes on quiescent water surface, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1591-1594</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.25pt;">Wang, </span>D. J., Lee, C. B. 2005, Nonlinear low frequency water waves in a cylindrical shell, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1615-1618</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2005, Problems in the paper "A link between chaos dynamics and the onset of turbulence in a transitional boundary layer", <em>Acta Phys. Sin. </em>54 (1): 481-482</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Cai, Q. D., Lee, C. B.2004, Limitation for the energy spectrum analysis for the understanding of the turbulent cascade, <em>Acta Phys. Sin</em>., 53 (9): 3090-3093</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Li, R. Q., Li, C. B. 2004, A link between the turbulent cascade and the dynamics of transition, <em>Acta Phys. Sin.</em>, 53 (8): 2621-2624</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2003, Breakdown of the chain of ring vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics, </em>12 (12): 1429-1434</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2002, A link between chaos dynamics and the onset of turbulence in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (8): 1743-1749</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. </span>R., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Meyer, D., Rist, U., Lian, Q. X., Lee, C. B.2002, Late-stage transitional boundary-layer structures. Direct numerical simulation and experiment, <em>Theroet. Comput. Fluid Dyn</em>. 15 (5): 317-337</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Gong, A. L., Li, R. Q., Lee, C. B. 2002, On the generation of low-frequency signals in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (5): 1068-1074</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2001, On the formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Exp. Fluids, </em>30 (3): 354-357</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001, On the formation of the streamwise vortex in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin.</em>, 50 (1): 182-184</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001. On the dynamics in a transitional boundary <span style="letter-spacing:-0.15pt;">layer,</span> <em>Communications in Nonlinear Science and Numerical Simulation</em>, 6(3), <span style="letter-spacing:-0.15pt;">111-171</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.2000 Possible universal transitional scenario in a flat plate boundary layer: Measurement and visualization, <em>Phys. <span style="letter-spacing:-0.25pt;">Rev. </span>E, </em>62 (3): 3659-3670</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S.2000 Formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics Letters</em>, 17 (8): 583-585</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2000 On the breakdown of a long streak in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics</em>, 9 (7): 508-514</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Hong, Z. X., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. V. </span>2000 A study in transitional flat plate boundary layers: measurement and visualization, <em>Exp. Fluids</em>, 28 (3): 243-251</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.1998 New features of CS solitons and the formation of vortices, <em>Phys. Lett. A, </em>247 (6): 397-402</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.25pt;">Wang, </span>S. 1995 Study of the shock motion in a hypersonic shock system/turbulent boundary layer interaction. <em>Exp. Fluids</em>,19(3), 143-149.</span></span></span>
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</ol>
1952
同年,在院系体制改革中,北京大学数学力学系的力学专业建制成立。它是中国第一个力学专业。经过力学前辈们倡导确立了力学专业的办学方向、力学人才的培养模式;培育了强调基础理论、重视实验研究、理论联系实际等优良学风;并开拓了湍流研究等学术方向。
李法新
李法新
李国洋
<p class="MsoNormal">
(†共同一作,<span>*</span>通讯作者):<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Zhang, Z.; <u>Li, G.-Y.</u>*;
Jiang, Y.; Zheng, Y.; Gower, A.L.; Destrade, M.; Cao, Y.*; Noninvasive measurement
of local stress inside soft materials with programmed shear waves, <b>Science Advances</b>,
2023, 9: eadd4082.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <u><span>Li, G.-Y.</span></u>†<span>*</span><span>; Jiang, Y.</span>†<span>; Zheng, Y.; Xu, W.; Zhang, Z.; Cao, Y.</span>*<span>; Arterial
stiffness probed by dynamic ultrasound elastography characterizes waveform of
blood pressure, <b>IEEE Transactions on Medical Imaging</b>, 2022, 41(6):
1510-1519.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <u><span>Li, G.-Y.</span></u><span>; Gower, A.L.; Destrade, M.*; Yun, S.-H.*; Non-destructive mapping
of stress, strain and stiffness of thin elastically deformed materials, <b>Communications
Physics</b>, 2022, 5: 231.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>Feng, X.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Ramier, A.;
Eltony, A.M.; Yun, S.-H.*; In vivo stiffness measurement of epidermis, dermis,
and hypodermis using broadband Rayleigh-wave optical coherence elastography, <b>Acta
Biomaterialia</b>, 2022, 146: 295-305.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <u><span>Li, G.-Y.</span></u>*<span>; Feng, X.; Ramier, A.; Yun, S.-H.</span>*<span>; Supershear
surface waves reveal prestress and anisotropy of soft materials, <b>Journal of
the Mechanics and Physics of Solids</b>, 2022, 169: 105085.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.</span>*<span>; Backward Mach cone of shear waves
induced by a moving force in soft anisotropic materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2020, 138: 103896.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Jiang, Y.-X.; Zhang, Z.; Cao, Y.</span>*<span>; Guided wave elastography of layered soft tissues, <b>Acta
Biomaterialia</b>, 2019, 84: 293-304.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <u><span>Li, G.-Y.</span></u><span>; Xu, G.; Zheng, Y.; Cao, Y.</span>*<span>; Non-leaky
modes and bandgaps of surface acoustic waves in wrinkled
stiff-film/compliant-substrate bilayers, <b>Journal of the Mechanics and
Physics of Solids</b>, 2018, 112: 239-252.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Mangan, R.; Xu, G.; Mo, C.; Luo, J.; Destrade, M.; Cao, Y.*;
Guided waves in pre-stressed hyperelastic plates and tubes: Application to the
ultrasound elastography of thin-walled soft materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2017, 102: 67-79.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.*; Mechanics of ultrasound elastography, <b>Proceedings of
the Royal Society A-Mathematical Physical and Engineering Sciences</b>, 2017,
473(2199): 20160841. (Invited review)</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
11. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Liu, Y.; Destrade, M.; Cao, Y.*; Elastic Cherenkov
effects in transversely isotropic soft materials-I: Theoretical analysis,
simulations and inverse method, <b>Journal of the Mechanics and Physics of
Solids</b>, 2016, 96: 388-410.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
12. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Qian, L.-X.; Geng, H.; Liu, Y.; Yang, X.-Y.; Luo, J.; Cao,
Y.*; Elastic Cherenkov effects in transversely isotropic soft materials-II: Ex
vivo and in vivo experiments, <b>Journal of the Mechanics and Physics of Solids</b>,
2016, 94: 181-190.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
13. <span>Jiang, Y.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Qian, L.-X.</span>†<span>; Hu, X.-D.;
Liu, D.; Liang, S.; Cao, Y.</span>*<span>; Characterization of the nonlinear
elastic properties of soft tissues using the supersonic shear imaging (SSI)
technique: Inverse method, ex vivo and in vivo experiments, <b>Medical Image
Analysis</b>, 2015, 20(1): 97-111.</span>
</p>
李国洋
<p class="MsoNormal">
(†共同一作,<span>*</span>通讯作者):<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Zhang, Z.; <u>Li, G.-Y.</u>*;
Jiang, Y.; Zheng, Y.; Gower, A.L.; Destrade, M.; Cao, Y.*; Noninvasive measurement
of local stress inside soft materials with programmed shear waves, <b>Science Advances</b>,
2023, 9: eadd4082.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <u><span>Li, G.-Y.</span></u>†<span>*</span><span>; Jiang, Y.</span>†<span>; Zheng, Y.; Xu, W.; Zhang, Z.; Cao, Y.</span>*<span>; Arterial
stiffness probed by dynamic ultrasound elastography characterizes waveform of
blood pressure, <b>IEEE Transactions on Medical Imaging</b>, 2022, 41(6):
1510-1519.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <u><span>Li, G.-Y.</span></u><span>; Gower, A.L.; Destrade, M.*; Yun, S.-H.*; Non-destructive mapping
of stress, strain and stiffness of thin elastically deformed materials, <b>Communications
Physics</b>, 2022, 5: 231.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>Feng, X.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Ramier, A.;
Eltony, A.M.; Yun, S.-H.*; In vivo stiffness measurement of epidermis, dermis,
and hypodermis using broadband Rayleigh-wave optical coherence elastography, <b>Acta
Biomaterialia</b>, 2022, 146: 295-305.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <u><span>Li, G.-Y.</span></u>*<span>; Feng, X.; Ramier, A.; Yun, S.-H.</span>*<span>; Supershear
surface waves reveal prestress and anisotropy of soft materials, <b>Journal of
the Mechanics and Physics of Solids</b>, 2022, 169: 105085.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.</span>*<span>; Backward Mach cone of shear waves
induced by a moving force in soft anisotropic materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2020, 138: 103896.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Jiang, Y.-X.; Zhang, Z.; Cao, Y.</span>*<span>; Guided wave elastography of layered soft tissues, <b>Acta
Biomaterialia</b>, 2019, 84: 293-304.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <u><span>Li, G.-Y.</span></u><span>; Xu, G.; Zheng, Y.; Cao, Y.</span>*<span>; Non-leaky
modes and bandgaps of surface acoustic waves in wrinkled
stiff-film/compliant-substrate bilayers, <b>Journal of the Mechanics and
Physics of Solids</b>, 2018, 112: 239-252.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Mangan, R.; Xu, G.; Mo, C.; Luo, J.; Destrade, M.; Cao, Y.*;
Guided waves in pre-stressed hyperelastic plates and tubes: Application to the
ultrasound elastography of thin-walled soft materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2017, 102: 67-79.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.*; Mechanics of ultrasound elastography, <b>Proceedings of
the Royal Society A-Mathematical Physical and Engineering Sciences</b>, 2017,
473(2199): 20160841. (Invited review)</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
11. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Liu, Y.; Destrade, M.; Cao, Y.*; Elastic Cherenkov
effects in transversely isotropic soft materials-I: Theoretical analysis,
simulations and inverse method, <b>Journal of the Mechanics and Physics of
Solids</b>, 2016, 96: 388-410.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
12. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Qian, L.-X.; Geng, H.; Liu, Y.; Yang, X.-Y.; Luo, J.; Cao,
Y.*; Elastic Cherenkov effects in transversely isotropic soft materials-II: Ex
vivo and in vivo experiments, <b>Journal of the Mechanics and Physics of Solids</b>,
2016, 94: 181-190.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
13. <span>Jiang, Y.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Qian, L.-X.</span>†<span>; Hu, X.-D.;
Liu, D.; Liang, S.; Cao, Y.</span>*<span>; Characterization of the nonlinear
elastic properties of soft tissues using the supersonic shear imaging (SSI)
technique: Inverse method, ex vivo and in vivo experiments, <b>Medical Image
Analysis</b>, 2015, 20(1): 97-111.</span>
</p>
李宏源
<p class="MsoNormal">
[1] <b>Hongyuan Li</b>; Zexiang Li; Xiangkui Tan; Xiangyu Wang; Shenglin
Huang; Yaolei Xiang; Pengyu Lv*; Huiling Duan*; Three-dimensional backflow at
liquid-gas interface induced by surfactant, <i>Journal
of Fluid Mechanics</i>, 2020, 899: A8.
</p>
<p class="MsoNormal">
[2] <b>Hongyuan Li</b>; SongSong Ji; Xiangkui Tan; Zexiang Li; Yaolei Xiang;
Pengyu Lv*; Huiling Duan*; Effect of Reynolds number on drag reduction in
turbulent boundary layer flow over liquid-gas interface, <i>Physics of Fluids</i>, 2020, 32: 122111.
</p>
<p class="MsoNormal">
[3] <b>Hongyuan Li</b>; Yufan Cao; Xiangyu Wang; Xia Wan; Yaolei Xiang;
Huijing Yuan; Pengyu Lv; Huiling Duan*; Accurate PIV measurement on slip
boundary using single-pixel algorithm, <i>Measurement
Science and Technology</i>, 2022, 33: 055302.
</p>
<p class="MsoNormal">
[4] Yufan Cao; Xiangyu Wang;
Huijing Yuan; Huiling Duan; Zhili Sun;<b> Hongyuan
Li*</b>; Pengyu Lv*; Correlation-based algorithms for accurate PIV measurement
near the slip boundary, <i>Measurement
Science and Technology</i>, 2023, 34: 015302.
</p>
<p class="MsoNormal">
[5] Zeqi Shi; Xiangkui Tan;
Yiwei Wang; Pengyu Lv; Yong Zou; Xia Wan; Kai Lv; Bingzhen Li; Huiling Duan; <b>Hongyuan Li*</b>; Experimental
Investigation of High Speed Cross-Domain Vehicles with Hydrofoil, <i>Journal of Marine Science and Engineering</i>,
2023,11,152.
</p>
<p class="MsoNormal">
[6] Kai Lv; Yongze Liu; Chenxi
You; Yong Zou; Zeqi Shi; Pengyu Lv; Huiling Duan; <b>Hongyuan Li*</b>; Hydrodynamic
investigations of a cross-domain vehicle with the capability of high-speed
cruising on water surface, <i>Ocean Engineering</i>, 2023, 280,114688.
</p>
<p class="MsoNormal">
[7] Yucheng Zou; Chenxi You;
Xiangkui Tan; Yiwei Wang; Jingzhu Wang; Chaohui Li; Ming He; Kai Lv; Yong Zou;
Huaitong Song; Pengyu Lv; <b>Hongyuan Li*</b>; Design and implementation of a
gliding cross-domain vehicle, <i>Ocean Engineering</i>, 2023, 280,114549.
</p>
<p class="MsoNormal">
[8] Yaolei Xiang; Shenglin
Huang; Tian-Yun Huang; Ao Dong; Di Cao; <b>Hongyuan Li</b>; Yahui Xue; Pengyu
Lv; Huiling Duan*; Superrepellency of underwater hierarchical structures on
Salvinia leaf, <i>Proceedings of the
National Academy of Sciences of the United States of America</i>, 2020, 117(5):
2282-2287.
</p>
<p class="MsoNormal">
[9] Zengzhi Du; <b>Hongyuan Li</b>; Yufan Cao; Xia Wan; Yaolei
Xiang; Pengyu Lv; Huiling Duan*; Control of flow separation using biomimetic
shark scales with fixed tilt angles, <i>Experiments
in Fluids</i>, 2022, 63:158.
</p>
<p class="MsoNormal">
[10] Songsong Ji; <b>Hongyuan
Li;</b> Zengzhi Du; Pengyu Lv; Huiling Duan; Influence of interfacial coupled
flow on slip boundary over a microstructured surface. <i>Physical Review Fluids</i>,
2023,8, 054003.
</p>
李家彪
李康康
李启亮
<p class="MsoNormal">
迄今已在<span lang="EN-US">SCI</span>期刊发表论文<span lang="EN-US">180</span>余篇,<span lang="EN-US">H-</span>指数<span lang="EN-US">37.<o:p></o:p></span>
</p>
<p class="MsoNormal">
1. Zhenyi Ye, Yaonian Li, Ruth Jin, Qiliang Li*; Towards
Accurate Odor Identification and Effective Feature Learning With an
AI-Empowered Electronic Nose; IEEE Internet of Things Journal; 2023, 11(3):
4735-4746.<o:p></o:p>
</p>
<p class="MsoNormal">
2. Xiaozhou Huang, Yaonian Li, Erin Witherspoon, Rui He, Greg
Petruncio, Mikell Paige, Matthew Li, Tongchao Liu, Khalil Amine, Zhe Wang,
Qiliang Li*, Pei Dong; Species-Selective Detection of Volatile Organic
Compounds by Ionic Liquid-Based Electrolyte Using Electrochemical Methods; ACS
Sensors, 2023, 8(9): 3389-3399.<o:p></o:p>
</p>
<p class="MsoNormal">
3. Ory Maimon, NA Moser, KJ Liddy, AJ Green, KD Chabak, KP
Cheung, Sujitra Pookpanratana, Qiliang Li*; Measurement and gate-voltage
dependence of channel and series resistances in lateral depletion-mode β-Ga2O3
MOSFETs; Semiconductor Science and Technology, 2023, 38(7): 075016.<o:p></o:p>
</p>
<p class="MsoNormal">
4. Hao Zhu, Yafen Yang, Xinyi Zhu, Parameswari Raju, Dimitris
E Ioannou, Qiliang Li*; Graphene-Integrated Negative Quantum Capacitance
Field-Effect Transistor With Sub-60-mV/dec Switching; IEEE Transactions on
Electron Devices, 2023, 70(9): 4899-4904.<o:p></o:p>
</p>
<p class="MsoNormal">
5. Xiaozhou Huang, Erin Witherspoon, Rui He, Yaonian Li,
Jingjiang Yu, JinghaoHuang Huang, Chao Luo, Matthew Li, Tongchao Liu, Khalil
Amine, Qiliang Li*, Zhe Wang, Pei Dong; Superior Photodynamic Effect of
Single-walled Carbon Nanotubes in Aprotic Media: A Kinetic Study; Materials
Today Energy, 2023, 32: 101242.<o:p></o:p>
</p>
<p class="MsoNormal">
6. Ory Maimon, Qiliang Li*; Progress in Gallium Oxide
Field-Effect Transistors for High-Power and RF Applications; <span style="text-wrap:wrap;">Materials, </span>2023, 16(24): 7693<o:p></o:p>
</p>
<p class="MsoNormal">
7. Min-Yeong Kim, Dong-Wook Byun, Geon-Hee Lee, Sujitra
Pookpanratana, Qiliang Li*, Sang-Mo Koo; Schottky barrier heights and
electronic transport in Ga2O3 Schottky diodes; Materials Research Express,
2023, 10(7): 075902.<o:p></o:p>
</p>
<p class="MsoNormal">
8. Yikun Su, Zhaoyang Wang, Ruoxi Gao, Qifan Wu, Jinlai Zhao,
Guangming Zhu, Qiliang Li, Hongbin Xu, Yiye Pan, Kunming Gu, Chiara Biz, Mauro
Fianchini, Jose Gracia; Ferromagnetic L12-Pt3Co Nanowires with Spin-Polarized
Orbitals for Fast and Selective Oxygen Reduction Electrocatalysis; Advanced
Functional Materials, 2023, 34(9): 2311618.<o:p></o:p>
</p>
<p class="MsoNormal">
9. Zhenyi Ye, Jie Wang, Hao Hua, Xiangdong Zhou, Qiliang Li*;
Precise detection and quantitative prediction of blood glucose level with an
electronic nose system; IEEE Sensors Journal, 2022, 22(13): 12452-12459.<o:p></o:p>
</p>
<p class="MsoNormal">
10. Yafen Yang, Kai Zhang, Yi Gu, Parameswari Raju, Qiliang
Li*, Li Ji, Lin Chen, Dimitris E Ioannou, Qingqing Sun, David Wei Zhang, Hao
Zhu; Steep-slope negative quantum capacitance field-effect transistor; 2022
International Electron Devices Meeting (IEDM), 2022, 22.6. 1-22.6. 4.<o:p></o:p>
</p>
李水乡
李水乡
李兴无
李咏梅
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
<br />
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1.
宋洁,<b>李咏梅<span>.</span></b><span> </span>“工之道,实为本,新为上——北京大学工学院专业学位教育新工科建设创新实践模式探索”,《北大研究生教育》,<span>2022</span>年首期<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
金红昊,<b>李咏梅</b>,鲍威<span>. </span>“何以失败:新高考改革对理工科新生大学生学业表现的影响”,《高等工程教育研究》<span>2022</span>年第<span>1</span>期,<span>p80-86</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b>李咏梅</b><span>, </span>周虹<span>, </span>章盛祺<span>. </span>“北京大学工学院新工科个性化人才培养模式探析 <span>– </span>基于学生体验的视角” <span>, </span>《高等工程教育研究》<span>2019</span>年第<span>6</span>期,<span>p24-29.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <b><span>Yongmei Li</span></b><span>, Erxiang Dou. “The
Development of New Engineering Talents with the Support of Information
Technology and Financial Scheme - From the perspective of talent industrial
life chain and based on the experience of the Peking University College of
Engineering”, </span>《<span>2018 WORLD ENGINEERING EDUCATION FORUM –
GLOBAL ENGINEERING DEANS COUNCIL</span>(<span>WEEF-GEDC</span>)》, <span>2018.11. </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <b>李咏梅、</b>窦尔翔<span>. </span>“高校基金演化的逻辑”,《北京大学教育评论》,<span>2018</span>年<span>4</span>月第<span>16</span>卷,<span>p284-291.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <b>李咏梅<span>. </span></b><span>“TEF</span>精准扶贫模式探讨<span> – </span>基于北京大学对云南弥渡实施精准扶贫的思考<span>”</span>, 《发展研究》,<span>2017.01</span>(<span>CN35-104 ISSN 1003-0670</span>)<span>, p85-87</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <b>李咏梅<span>.</span></b><span> “</span>论双创人才培养的云机制<span>”</span>,《北大青年研究》,<span>2017</span>年第二期<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <b>李咏梅</b>,周虹,<span> “</span>北京大学工学院产学研探索思考与发展之路<span>”, </span>《高教学刊》<span> 2017</span>年第<span>9</span>期总第<span>57</span>期(<span>ISSN 2096-000X CN 23-1593/G4</span>)<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <b>李咏梅,</b>窦尔翔<span>. “</span>两种技术倒逼教育演化<span>”</span>,《开放学习研究》(<span>ISSN</span>:<span>1008-7648</span>)<span>, 2016</span>年, <span>p26-32</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <b>李咏梅</b><span>, </span>沈楠冰<span>. “</span>工科教育创新之路<span> - </span>北京大学工学院创新创业教育发展模式探索<span>”</span>, 《北大青年研究》<span style="text-indent:-18pt;"></span>
</p>
<p>
<br />
</p>
李泽湘
李启亮
<p class="MsoNormal">
迄今已在<span lang="EN-US">SCI</span>期刊发表论文<span lang="EN-US">180</span>余篇,<span lang="EN-US">H-</span>指数<span lang="EN-US">37.<o:p></o:p></span>
</p>
<p class="MsoNormal">
1. Zhenyi Ye, Yaonian Li, Ruth Jin, Qiliang Li*; Towards
Accurate Odor Identification and Effective Feature Learning With an
AI-Empowered Electronic Nose; IEEE Internet of Things Journal; 2023, 11(3):
4735-4746.<o:p></o:p>
</p>
<p class="MsoNormal">
2. Xiaozhou Huang, Yaonian Li, Erin Witherspoon, Rui He, Greg
Petruncio, Mikell Paige, Matthew Li, Tongchao Liu, Khalil Amine, Zhe Wang,
Qiliang Li*, Pei Dong; Species-Selective Detection of Volatile Organic
Compounds by Ionic Liquid-Based Electrolyte Using Electrochemical Methods; ACS
Sensors, 2023, 8(9): 3389-3399.<o:p></o:p>
</p>
<p class="MsoNormal">
3. Ory Maimon, NA Moser, KJ Liddy, AJ Green, KD Chabak, KP
Cheung, Sujitra Pookpanratana, Qiliang Li*; Measurement and gate-voltage
dependence of channel and series resistances in lateral depletion-mode β-Ga2O3
MOSFETs; Semiconductor Science and Technology, 2023, 38(7): 075016.<o:p></o:p>
</p>
<p class="MsoNormal">
4. Hao Zhu, Yafen Yang, Xinyi Zhu, Parameswari Raju, Dimitris
E Ioannou, Qiliang Li*; Graphene-Integrated Negative Quantum Capacitance
Field-Effect Transistor With Sub-60-mV/dec Switching; IEEE Transactions on
Electron Devices, 2023, 70(9): 4899-4904.<o:p></o:p>
</p>
<p class="MsoNormal">
5. Xiaozhou Huang, Erin Witherspoon, Rui He, Yaonian Li,
Jingjiang Yu, JinghaoHuang Huang, Chao Luo, Matthew Li, Tongchao Liu, Khalil
Amine, Qiliang Li*, Zhe Wang, Pei Dong; Superior Photodynamic Effect of
Single-walled Carbon Nanotubes in Aprotic Media: A Kinetic Study; Materials
Today Energy, 2023, 32: 101242.<o:p></o:p>
</p>
<p class="MsoNormal">
6. Ory Maimon, Qiliang Li*; Progress in Gallium Oxide
Field-Effect Transistors for High-Power and RF Applications; <span style="text-wrap:wrap;">Materials, </span>2023, 16(24): 7693<o:p></o:p>
</p>
<p class="MsoNormal">
7. Min-Yeong Kim, Dong-Wook Byun, Geon-Hee Lee, Sujitra
Pookpanratana, Qiliang Li*, Sang-Mo Koo; Schottky barrier heights and
electronic transport in Ga2O3 Schottky diodes; Materials Research Express,
2023, 10(7): 075902.<o:p></o:p>
</p>
<p class="MsoNormal">
8. Yikun Su, Zhaoyang Wang, Ruoxi Gao, Qifan Wu, Jinlai Zhao,
Guangming Zhu, Qiliang Li, Hongbin Xu, Yiye Pan, Kunming Gu, Chiara Biz, Mauro
Fianchini, Jose Gracia; Ferromagnetic L12-Pt3Co Nanowires with Spin-Polarized
Orbitals for Fast and Selective Oxygen Reduction Electrocatalysis; Advanced
Functional Materials, 2023, 34(9): 2311618.<o:p></o:p>
</p>
<p class="MsoNormal">
9. Zhenyi Ye, Jie Wang, Hao Hua, Xiangdong Zhou, Qiliang Li*;
Precise detection and quantitative prediction of blood glucose level with an
electronic nose system; IEEE Sensors Journal, 2022, 22(13): 12452-12459.<o:p></o:p>
</p>
<p class="MsoNormal">
10. Yafen Yang, Kai Zhang, Yi Gu, Parameswari Raju, Qiliang
Li*, Li Ji, Lin Chen, Dimitris E Ioannou, Qingqing Sun, David Wei Zhang, Hao
Zhu; Steep-slope negative quantum capacitance field-effect transistor; 2022
International Electron Devices Meeting (IEDM), 2022, 22.6. 1-22.6. 4.<o:p></o:p>
</p>
李植
李植
李忠奎
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<a name="OLE_LINK176"></a><a name="OLE_LINK175"></a><a name="OLE_LINK174"></a><a name="OLE_LINK173"></a><a name="OLE_LINK25"></a><a name="OLE_LINK24"></a><span style="font-family:"font-size:14px;">1.
S. Zhang,
Y. Lv, </span><a name="OLE_LINK22"></a><a name="OLE_LINK21"></a><span style="font-family:"font-size:14px;">Z. Li*, An operator-theoretic approach to robust event-triggered control
of network systems with frequency-domain uncertainties, </span><a name="OLE_LINK96"></a><a name="OLE_LINK95"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Automatic Control, </span><a name="OLE_LINK119"></a><a name="OLE_LINK118"></a><span style="font-family:"font-size:14px;">accepted for publication, 2022. (regular
paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">2. Y. Xiong, Z. Li*, Privacy-preserved average
consensus algorithm with edge-based additive perturbations, Automatica, 140: 110223, 2022.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">3. Z. Sun, A. Rantze, Z. Li*, A. Robertsson, </span><a name="OLE_LINK15"></a><a name="OLE_LINK16"></a><span style="font-family:"font-size:14px;">Distributed
adaptive stabilization, Automatica, 129: 109616, 2021. (regular paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">4. Z. Li*, J. Chen, Robust consensus for
multi-agent systems communicating over stochastic uncertain networks, </span><a name="OLE_LINK151"></a><a name="OLE_LINK150"></a><span style="font-family:"font-size:14px;">SIAM
Journal on Control & Optimization, 57(5): 3553- 3570, 2019.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">5. B. Cheng, Z. Li*, Fully distributed
event-triggered protocols for linear multiagent networks, IEEE Transactions on
Automatic Control, 64(4): 1655-1662, 2019. </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">6. Z. Li*, J. Chen, Robust consensus of linear
feedback protocols over uncertain network graphs, IEEE Transactions on
Automatic Control, 62(8): 4251-4258, 2017.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">7. Z. Li*, G. Wen, Z. Duan, W. Ren, Designing
fully distributed consensus protocols for linear multi-agent systems with directed graphs, IEEE
Transactions on Automatic Control, 60(4): 1152-1157, 2015.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">8. Z. Li*, W. Ren, X. Liu, L. Xie, Distributed
consensus of linear multi-agent systems with adaptive dynamic protocols,
Automatica, 49(7): 1986-1995, 2013. (Regular
Paper) </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">9. Z. Li*, W. Ren, X. Liu, M. Fu, Consensus of
multi-agent systems with general linear and Lipschitz nonlinear dynamics using
distributed adaptive protocols, IEEE Transactions on Automatic Control, 58(7):
1786-1791, 2013.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">10. Z. Li*, Z. Duan, G. Chen, L. Huang, </span><a name="OLE_LINK103"></a><a name="OLE_LINK62"></a><a name="OLE_LINK61"></a><span style="font-family:"font-size:14px;">Consensus
of multiagent systems and synchronization of complex networks: A unified
viewpoint, </span><a name="OLE_LINK64"></a><a name="OLE_LINK63"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Circuits and Systems I:
Regular Papers, 57(1</span><a name="OLE_LINK66"></a><a name="OLE_LINK65"></a><span style="font-family:"font-size:14px;">): 213-224, 2010.</span>
</p>
李忠奎
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<a name="OLE_LINK176"></a><a name="OLE_LINK175"></a><a name="OLE_LINK174"></a><a name="OLE_LINK173"></a><a name="OLE_LINK25"></a><a name="OLE_LINK24"></a><span style="font-family:"font-size:14px;">1.
S. Zhang,
Y. Lv, </span><a name="OLE_LINK22"></a><a name="OLE_LINK21"></a><span style="font-family:"font-size:14px;">Z. Li*, An operator-theoretic approach to robust event-triggered control
of network systems with frequency-domain uncertainties, </span><a name="OLE_LINK96"></a><a name="OLE_LINK95"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Automatic Control, </span><a name="OLE_LINK119"></a><a name="OLE_LINK118"></a><span style="font-family:"font-size:14px;">accepted for publication, 2022. (regular
paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">2. Y. Xiong, Z. Li*, Privacy-preserved average
consensus algorithm with edge-based additive perturbations, Automatica, 140: 110223, 2022.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">3. Z. Sun, A. Rantze, Z. Li*, A. Robertsson, </span><a name="OLE_LINK15"></a><a name="OLE_LINK16"></a><span style="font-family:"font-size:14px;">Distributed
adaptive stabilization, Automatica, 129: 109616, 2021. (regular paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">4. Z. Li*, J. Chen, Robust consensus for
multi-agent systems communicating over stochastic uncertain networks, </span><a name="OLE_LINK151"></a><a name="OLE_LINK150"></a><span style="font-family:"font-size:14px;">SIAM
Journal on Control & Optimization, 57(5): 3553- 3570, 2019.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">5. B. Cheng, Z. Li*, Fully distributed
event-triggered protocols for linear multiagent networks, IEEE Transactions on
Automatic Control, 64(4): 1655-1662, 2019. </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">6. Z. Li*, J. Chen, Robust consensus of linear
feedback protocols over uncertain network graphs, IEEE Transactions on
Automatic Control, 62(8): 4251-4258, 2017.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">7. Z. Li*, G. Wen, Z. Duan, W. Ren, Designing
fully distributed consensus protocols for linear multi-agent systems with directed graphs, IEEE
Transactions on Automatic Control, 60(4): 1152-1157, 2015.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">8. Z. Li*, W. Ren, X. Liu, L. Xie, Distributed
consensus of linear multi-agent systems with adaptive dynamic protocols,
Automatica, 49(7): 1986-1995, 2013. (Regular
Paper) </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">9. Z. Li*, W. Ren, X. Liu, M. Fu, Consensus of
multi-agent systems with general linear and Lipschitz nonlinear dynamics using
distributed adaptive protocols, IEEE Transactions on Automatic Control, 58(7):
1786-1791, 2013.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">10. Z. Li*, Z. Duan, G. Chen, L. Huang, </span><a name="OLE_LINK103"></a><a name="OLE_LINK62"></a><a name="OLE_LINK61"></a><span style="font-family:"font-size:14px;">Consensus
of multiagent systems and synchronization of complex networks: A unified
viewpoint, </span><a name="OLE_LINK64"></a><a name="OLE_LINK63"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Circuits and Systems I:
Regular Papers, 57(1</span><a name="OLE_LINK66"></a><a name="OLE_LINK65"></a><span style="font-family:"font-size:14px;">): 213-224, 2010.</span>
</p>
1969
为了响应当时“三线建设”规划的需要,北京大学校方于1969年10月将北京大学数学力学系力学专业、技术物理系、无线电系一起迁到陕西汉中地区。
励争
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Jianlin Yi, Zheng Li*, Mehrdad
Negahban, Rongyu Xia, Jueyong Zhu. Asymmetric viscoelastic metamaterials for
broad bandgap design and unidirectional zero reflection. <b>Mechanical Systems and Signal Processing</b>, 162 (2022) 108101</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
Rongyu
Xia, Jueyong Zhu, Jianlin Yi, Shixuan Shao, Zheng Li*. Guided wave propagation
in multilayered periodic piezoelectric plate with a mirror plane. <b>International Journal of Mechanical
Sciences</b>, 204 (2021) 106539
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
3.
M.
Saqib Hameed, Zheng Li* and Kaihong Zheng. Damage Detection Method Based on
Continuous Wavelet Transformation of Lamb Wave Signals. <b>Appl. Sci. </b>2020, 10:<span>8610 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
4.
Rongyu
Xia, Jianlin Yi, Zhong Chen and Zheng Li*. In situ steering of shear horizontal
waves in a plate by a tunable electromechanical resonant elastic metasurface, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): 095302
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
5.
Zhong
Chen, Mehrdad Negahban, Zheng Li*, Jueyong Zhu. Tunable exceptional point and
unidirectional zero reflection of a metabeam using shunted piezos, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): <span>095503</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
6.
M.
Saqib Hameed and Zheng Li*. Transverse Damage Localization and Quantitative
Size Estimation for Composite Laminates Based on Lamb Waves, <b>IEEE Access</b>, 2019, 7(1): 174859-174872
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
7.
Jie Zhou, Zheng Li*. Damage
detection based on vibration for composite sandwich panels with truss core, <b>Composite
Structures</b> 229 (2019) 111376
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
8.
Jianlin Yi, Mehrdad
Negahban, Zheng Li*, Xianyue Su, Rongyu Xia. Conditionally extraordinary transmission
in periodic parity-time symmetric phononic crystals, <b>International Journal of Mechanical Sciences</b> 163 (2019) 105134
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
9.
Zhong
Chen, Shixuan Shao, Mehrdad Negahban and Zheng Li*. Tunable metasurface for
acoustic wave redirection, focusing and source illusion,<b><span>Journal of Physics D: Applied Physics</span></b>,<span>52
(2019) 395503 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
10.
Kaihong
Zheng, Zheng Li*, Zhaoyang Ma, Jianlin Chen, Jie Zhou, Xianyue Su. Damage
detection method based on Lamb waves for stiffened composite panels, <b>Composite Structures</b> 225 (2019) 111137
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
11.
M.
Saqib Hameed, Zheng Li *, Jianlin Chen and Jiahong Qi. Lamb-Wave-Based
Multistage Damage Detection Method Using an Active PZT Sensor Network for Large
Structures, <b>Sensors</b>, 2019, 19: 2010
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
12.
Jie
Zhou, Zheng Li*, Jianlin Chen. Damage identification method based on continuous
wavelet transform and mode shapes for composite laminates with cutouts, <b>Composite Structures</b>, 2018, 191: 12-23.
</p>
励争
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Jianlin Yi, Zheng Li*, Mehrdad
Negahban, Rongyu Xia, Jueyong Zhu. Asymmetric viscoelastic metamaterials for
broad bandgap design and unidirectional zero reflection. <b>Mechanical Systems and Signal Processing</b>, 162 (2022) 108101</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
Rongyu
Xia, Jueyong Zhu, Jianlin Yi, Shixuan Shao, Zheng Li*. Guided wave propagation
in multilayered periodic piezoelectric plate with a mirror plane. <b>International Journal of Mechanical
Sciences</b>, 204 (2021) 106539
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
3.
M.
Saqib Hameed, Zheng Li* and Kaihong Zheng. Damage Detection Method Based on
Continuous Wavelet Transformation of Lamb Wave Signals. <b>Appl. Sci. </b>2020, 10:<span>8610 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
4.
Rongyu
Xia, Jianlin Yi, Zhong Chen and Zheng Li*. In situ steering of shear horizontal
waves in a plate by a tunable electromechanical resonant elastic metasurface, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): 095302
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
5.
Zhong
Chen, Mehrdad Negahban, Zheng Li*, Jueyong Zhu. Tunable exceptional point and
unidirectional zero reflection of a metabeam using shunted piezos, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): <span>095503</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
6.
M.
Saqib Hameed and Zheng Li*. Transverse Damage Localization and Quantitative
Size Estimation for Composite Laminates Based on Lamb Waves, <b>IEEE Access</b>, 2019, 7(1): 174859-174872
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
7.
Jie Zhou, Zheng Li*. Damage
detection based on vibration for composite sandwich panels with truss core, <b>Composite
Structures</b> 229 (2019) 111376
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
8.
Jianlin Yi, Mehrdad
Negahban, Zheng Li*, Xianyue Su, Rongyu Xia. Conditionally extraordinary transmission
in periodic parity-time symmetric phononic crystals, <b>International Journal of Mechanical Sciences</b> 163 (2019) 105134
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
9.
Zhong
Chen, Shixuan Shao, Mehrdad Negahban and Zheng Li*. Tunable metasurface for
acoustic wave redirection, focusing and source illusion,<b><span>Journal of Physics D: Applied Physics</span></b>,<span>52
(2019) 395503 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
10.
Kaihong
Zheng, Zheng Li*, Zhaoyang Ma, Jianlin Chen, Jie Zhou, Xianyue Su. Damage
detection method based on Lamb waves for stiffened composite panels, <b>Composite Structures</b> 225 (2019) 111137
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
11.
M.
Saqib Hameed, Zheng Li *, Jianlin Chen and Jiahong Qi. Lamb-Wave-Based
Multistage Damage Detection Method Using an Active PZT Sensor Network for Large
Structures, <b>Sensors</b>, 2019, 19: 2010
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
12.
Jie
Zhou, Zheng Li*, Jianlin Chen. Damage identification method based on continuous
wavelet transform and mode shapes for composite laminates with cutouts, <b>Composite Structures</b>, 2018, 191: 12-23.
</p>
蔡庆东
常海滨
陈光
陈光
陈光
陈国谦
陈建霖
陈默涵
陈默涵
陈璞
陈璞
陈十一
陈威
陈伟
陈伟
陈伟
陈祥宝
陈永强
陈永强
陈正
陈正
陈帜
陈帜
程承旗
程承旗
楚天广
楚天广
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
戴兆贺
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;">
<span style="font-family:"">Try my ResearchGate profile (</span><span><a href="https://www.researchgate.net/profile/Zhaohe-Dai"><span style="font-family:"">https://www.researchgate.net/profile/Zhaohe-Dai</span></a></span><span style="font-family:"">) for more details.</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">1. </span><b><span style="font-family:"">Z. Dai*,</span></b><span style="font-family:""> N. Lu*. Poking and bulging
of suspended thin sheets: slippage, instabilities, and metrology.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics
and Physics of Solids</span></i><span style="font-family:""> 149, 104320 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">2. Y. Hou†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, S. Zhang†, S. Feng, G.
Wang, L. Liu*, Z. Xu*, Q. Li*, Z. Zhang*. Elastocapillary cleaning of twisted
bilayer graphene interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Nature Communications</span></i><span style="font-family:""> 12, 5069 (2021)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">3. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, D.
Sanchez, C. J. Brennan, N. Lu*. Radial Buckle Delamination Around
Two-Dimensional Material Tents.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Journal of the Mechanics and Physics of Solids</span></i><span style="font-family:""> 137, 103843 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">4. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, N.
Lu, K. Liechti, R. Huang*. Mechanics at the Interfaces of 2D Materials: Challenges
and Opportunities.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Current Opinions in Solid State & Materials
Science</span></i><span style="font-family:""> 24, 100837 (2020)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">5. G. Wang†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, J. Xiao†, S. Feng, C.
Weng, L. Liu*, Z. Xu*, R. Huang*, Z. Zhang*. Bending of multilayer van der
Waals materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 123, 116101 (2019) [高被引、编辑推荐、封面文章、MRS News报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">6. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, L.
Liu*, Z. Zhang*. Strain Engineering of Two-Dimensional Materials: Issues and
Opportunities at the Interface.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Materials</span></i><span style="font-family:""> 31, 1805417 (2019) [ESI 高被引、内插页文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">7. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Hou, D. A. Sanchez, G. Wang, C. J. Brennan, L. Liu*, N. Lu*. Interface-Governed
Deformation of Nanobubbles and Nanotents Formed by Two-Dimensional Materials.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Physical Review Letters </span></i><span style="font-family:"">121, 266101 (2018) [编辑推荐、封面文章]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">8. D. Sanchez†, </span><b><span style="font-family:"">Z. Dai†</span></b><span style="font-family:"">, P. Wang, A. Cantu-Chavez,
C. J. Brennan, R. Huang*, N. Lu*. Mechanics of Liquid-Filled Nanobubbles
Trapped by Two-Dimensional Crystals.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Proceedings of the National Academy of Sciences</span></i><span style="font-family:""> 115, 7884 (2018)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">9. G. Wang†, </span><b><span style="font-family:"">Z.
Dai†</span></b><span style="font-family:"">, Y. Wang, P. Tan, L. Liu*, Z. Xu*, Y. Wei, R. Huang, Z. Zhang*.
Measuring Interlayer Shear Stress in Bilayer Graphene.</span>
</p>
<p class="MsoNormal" style="margin-left:39.0pt;text-align:justify;">
<i><span style="font-family:"">Physical Review Letters</span></i><span style="font-family:""> 119, 036101 (2017) [ESI高被引、编辑推荐、APS Physics Focus报道]</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">10. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, G. Wang, L. Liu*, Y. Hou, Y. Wei*, Z. Zhang*. Mechanical
Behavior and Properties of Hydrogen bonded Graphene/Polymer Nano-Interfaces.</span>
</p>
<p class="MsoNormal" style="margin-left:3.0pt;text-align:justify;text-indent:36.0pt;">
<i><span style="font-family:"">Composites Science and Technology</span></i><span style="font-family:""> 136, 1 (2016)</span>
</p>
<p class="MsoListParagraph" style="margin-left:39.0pt;text-align:justify;text-indent:-18.0pt;">
<span style="font-family:"">11. </span><b><span style="font-family:"">Z. Dai</span></b><span style="font-family:"">, Y.
Wang, L. Liu*, X. Liu, P. Tan, Z. Xu*, J. Kuang, Q. Liu, J. Lou, Z. Zhang*.
Hierarchical Graphene Based
Films with Dynamic Self-stiffening for Biomimetic Artificial Muscle.</span>
</p>
<p class="MsoNormal" style="margin-left:24.0pt;text-align:justify;text-indent:15.0pt;">
<i><span style="font-family:"">Advanced Functional Materials</span></i><span style="font-family:""> 26, 7003 (2016) </span>
</p>
邓航
<p class="MsoNormal">
<span style="font-size:12px;">注:“</span><span style="font-size:12px;">*</span><span style="font-size:12px;">”
代表通讯作者</span><span></span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, H.
Breunig, J. Apte, J., Y. Qin, An Early Career Perspective on the Opportunities
and Challenges of Team Science, </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2022, </span><span><a href="https://doi.org/10.1021/acs.est.1c08322"><span style="font-family:"font-size:12px;">https://doi.org/10.1021/acs.est.1c08322</span></a></span><span style="font-family:"font-size:12px;">.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, J.
Poonoosamy, S. Molins, A reactive transport modeling perspective on the
dynamics of interface-coupled dissolution-precipitation, </span><i><span style="font-family:"font-size:12px;">Applied Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2022, 137, 105207.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">P. Li, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, S. Molins, The Effect
of Pore-Scale Two-Phase Flow on Mineral Reaction Rates, </span><i><span style="font-family:"font-size:12px;">Frontiers in Water</span></i><span style="font-family:"font-size:12px;">,
2022, https://doi.org/10.3389/frwa.2021.734518.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">Q. Zhang, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, Y. Dong*, S.
Molins, X. Li, C.I. Steefel, Investigation of coupled processes in fractures
and the bordering matrix via a micro-continuum reactive transport model, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2022, e2021WR030578.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.
Tournassat, S. Molins, F. Claret, C.I. Steefel, A Pore‐Scale
Investigation of Mineral Precipitation Driven Diffusivity Change at the Column‐Scale, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2021, doi: 10.1029/2020WR028483.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, A.
Navarre-Sitchler, E. Heil, C. Peters, Addressing Water and Energy Challenges
with Reactive Transport Modeling, </span><i><span style="font-family:"font-size:12px;">Environmental Engineering Science</span></i><span style="font-family:"font-size:12px;">,
2021, 38(3), pp 109-114.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*,</span></b><span style="font-family:"font-size:12px;"> J.
Fitts, T.V. Ryan, J.J. Kim, C.A. Peters, Acid erosion of carbonate fractures
and accessibility of arsenic-bearing minerals: </span><i><span style="font-family:"font-size:12px;">In Operando</span></i><span style="font-family:"font-size:12px;"> synchrotron-based microfluidics experiment, </span><i><span style="font-family:"font-size:12px;">Environmental
Science & Technology</span></i><span style="font-family:"font-size:12px;">, 2020, 54(19), pp 12502–12510. </span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, N.
Spycher, Modeling Reactive Transport Processes in Fractures, </span><i><span style="font-family:"font-size:12px;">Reviews in Mineralogy and Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2019, 85(1), pp 49-74.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, S.
Molins, D. Trebotich, C.I. Steefel, D.J. DePaolo, Pore-scale numerical
investigation of the impacts of surface roughness: upscaling of reaction rates
in rough fractures, </span><i><span style="font-family:"font-size:12px;">Geochimica et
Cosmochimica Acta</span></i><span style="font-family:"font-size:12px;">, 2018, 239, pp 374-389.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.I.
Steefel, S. Molins, D.J. DePaolo. Fracture Evolution in Multimineral Systems:
The Role of Mineral Composition, Flow Rate, and Fracture Aperture
Heterogeneity. </span><i><span style="font-family:"font-size:12px;">Earth and Space Chemistry</span></i><span style="font-family:"font-size:12px;">,
2018, 22 (2), pp 112-124.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, M.
Voltolini, S. Molins, C.I. Steefel, D.J. DePaolo, J. Ajo-Franklin, L. Yang.
Alteration and Erosion of Rock Matrix Bordering a Carbonate-Rich Shale
Fracture. </span><i><span style="font-family:"font-size:12px;">Environmental Science &
Technology</span></i><span style="font-family:"font-size:12px;">, 2017, 51 (15), pp 8861–8868.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, J.M.
Bielicki, M. Oppenheimer, J.P. Fitts, C.A. Peters. Leakage Risks of Geologic CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;"> Storage and the Impacts on the Global Energy System and Climate Change
Mitigation. </span><i><span style="font-family:"font-size:12px;">Climatic Change,</span></i><span style="font-family:"font-size:12px;"> 2017,
144 (2), pp 151-163. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*, </span></b><span style="font-family:"font-size:12px;">S.
Molins, C.I. Steefel, D.J. DePaolo, M. Voltolini, L. Yang, J. Ajo-Franklin. A
2.5D Reactive Transport Model for Fracture Alteration Simulation. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2016, 50 (14), pp 7564-7571.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H.
Deng, </span></b><span style="font-family:"font-size:12px;">J.P. Fitts, D. Crandall, D. McIntyre, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">.
Alterations of Fractures in Carbonate Rocks by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified Brines. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2015, 49(16), pp 10226-10234. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">, B.R.
Ellis, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">, J.P. Fitts, D. Crandall, G.S. Bromhal,
Modifications of Carbonate Fracture Hydrodynamic Properties by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified
Brine Flow. </span><i><span style="font-family:"font-size:12px;">Energy & Fuels</span></i><span style="font-family:"font-size:12px;">, 2013,
27(8), pp 4221-4231.</span>
</p>
邓航
<p class="MsoNormal">
<span style="font-size:12px;">注:“</span><span style="font-size:12px;">*</span><span style="font-size:12px;">”
代表通讯作者</span><span></span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, H.
Breunig, J. Apte, J., Y. Qin, An Early Career Perspective on the Opportunities
and Challenges of Team Science, </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2022, </span><span><a href="https://doi.org/10.1021/acs.est.1c08322"><span style="font-family:"font-size:12px;">https://doi.org/10.1021/acs.est.1c08322</span></a></span><span style="font-family:"font-size:12px;">.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, J.
Poonoosamy, S. Molins, A reactive transport modeling perspective on the
dynamics of interface-coupled dissolution-precipitation, </span><i><span style="font-family:"font-size:12px;">Applied Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2022, 137, 105207.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">P. Li, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, S. Molins, The Effect
of Pore-Scale Two-Phase Flow on Mineral Reaction Rates, </span><i><span style="font-family:"font-size:12px;">Frontiers in Water</span></i><span style="font-family:"font-size:12px;">,
2022, https://doi.org/10.3389/frwa.2021.734518.</span>
</p>
<p class="MsoNormal" style="background:white;">
<span style="font-family:"font-size:12px;">Q. Zhang, </span><b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">*, Y. Dong*, S.
Molins, X. Li, C.I. Steefel, Investigation of coupled processes in fractures
and the bordering matrix via a micro-continuum reactive transport model, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2022, e2021WR030578.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.
Tournassat, S. Molins, F. Claret, C.I. Steefel, A Pore‐Scale
Investigation of Mineral Precipitation Driven Diffusivity Change at the Column‐Scale, </span><i><span style="font-family:"font-size:12px;">Water
Resources Research</span></i><span style="font-family:"font-size:12px;">, 2021, doi: 10.1029/2020WR028483.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, A.
Navarre-Sitchler, E. Heil, C. Peters, Addressing Water and Energy Challenges
with Reactive Transport Modeling, </span><i><span style="font-family:"font-size:12px;">Environmental Engineering Science</span></i><span style="font-family:"font-size:12px;">,
2021, 38(3), pp 109-114.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*,</span></b><span style="font-family:"font-size:12px;"> J.
Fitts, T.V. Ryan, J.J. Kim, C.A. Peters, Acid erosion of carbonate fractures
and accessibility of arsenic-bearing minerals: </span><i><span style="font-family:"font-size:12px;">In Operando</span></i><span style="font-family:"font-size:12px;"> synchrotron-based microfluidics experiment, </span><i><span style="font-family:"font-size:12px;">Environmental
Science & Technology</span></i><span style="font-family:"font-size:12px;">, 2020, 54(19), pp 12502–12510. </span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, N.
Spycher, Modeling Reactive Transport Processes in Fractures, </span><i><span style="font-family:"font-size:12px;">Reviews in Mineralogy and Geochemistry</span></i><span style="font-family:"font-size:12px;">,
2019, 85(1), pp 49-74.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, S.
Molins, D. Trebotich, C.I. Steefel, D.J. DePaolo, Pore-scale numerical
investigation of the impacts of surface roughness: upscaling of reaction rates
in rough fractures, </span><i><span style="font-family:"font-size:12px;">Geochimica et
Cosmochimica Acta</span></i><span style="font-family:"font-size:12px;">, 2018, 239, pp 374-389.</span>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, C.I.
Steefel, S. Molins, D.J. DePaolo. Fracture Evolution in Multimineral Systems:
The Role of Mineral Composition, Flow Rate, and Fracture Aperture
Heterogeneity. </span><i><span style="font-family:"font-size:12px;">Earth and Space Chemistry</span></i><span style="font-family:"font-size:12px;">,
2018, 22 (2), pp 112-124.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, M.
Voltolini, S. Molins, C.I. Steefel, D.J. DePaolo, J. Ajo-Franklin, L. Yang.
Alteration and Erosion of Rock Matrix Bordering a Carbonate-Rich Shale
Fracture. </span><i><span style="font-family:"font-size:12px;">Environmental Science &
Technology</span></i><span style="font-family:"font-size:12px;">, 2017, 51 (15), pp 8861–8868.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*</span></b><span style="font-family:"font-size:12px;">, J.M.
Bielicki, M. Oppenheimer, J.P. Fitts, C.A. Peters. Leakage Risks of Geologic CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;"> Storage and the Impacts on the Global Energy System and Climate Change
Mitigation. </span><i><span style="font-family:"font-size:12px;">Climatic Change,</span></i><span style="font-family:"font-size:12px;"> 2017,
144 (2), pp 151-163. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng*, </span></b><span style="font-family:"font-size:12px;">S.
Molins, C.I. Steefel, D.J. DePaolo, M. Voltolini, L. Yang, J. Ajo-Franklin. A
2.5D Reactive Transport Model for Fracture Alteration Simulation. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2016, 50 (14), pp 7564-7571.</span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H.
Deng, </span></b><span style="font-family:"font-size:12px;">J.P. Fitts, D. Crandall, D. McIntyre, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">.
Alterations of Fractures in Carbonate Rocks by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified Brines. </span><i><span style="font-family:"font-size:12px;">Environmental Science & Technology</span></i><span style="font-family:"font-size:12px;">,
2015, 49(16), pp 10226-10234. </span><i></i>
</p>
<p class="MsoNormal" style="background:white;">
<b><span style="font-family:"font-size:12px;">H. Deng</span></b><span style="font-family:"font-size:12px;">, B.R.
Ellis, C.A. Peters</span><b><span style="font-family:"font-size:12px;">*</span></b><span style="font-family:"font-size:12px;">, J.P. Fitts, D. Crandall, G.S. Bromhal,
Modifications of Carbonate Fracture Hydrodynamic Properties by CO</span><sub><span style="font-family:"font-size:12px;">2</span></sub><span style="font-family:"font-size:12px;">-acidified
Brine Flow. </span><i><span style="font-family:"font-size:12px;">Energy & Fuels</span></i><span style="font-family:"font-size:12px;">, 2013,
27(8), pp 4221-4231.</span>
</p>
邸元
邸元
丁陈森
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[1] <b>C.S. Ding</b>, R.R. Deokar, H.J. Lian, Y.J. Ding, G.Y.
Li, X.Y. Cui, K.K. Tamma. S.P.A. Bordas. Resolving high
frequency issues via proper orthogonal decomposition based dynamic isogeometric
analysis for structures with dissimilar materials. <b><i>Computer Methods in Applied
Mechanics and Engineering.</i> </b>359(2020)112753.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[2] <b>C.S. Ding, </b>R.R. Deokar, Y.J. Ding, G.Y. Li, K.K.
Tamma, X.Y. Cui, S.P.A. Bordas. Model order reduction accelerated Monte Carlo
stochastic isogeometric method for the analysis of structures with
high-dimensional and independent material uncertainties. <b><i>Computer Methods in Applied
Mechanics and Engineering, </i></b>349(2019) 266-284. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[3] <b>C.S. Ding, </b>X.B. Hu, X.Y. Cui, G.Y. Li, Y. Cai, K.K.
Tamma, Isogeometric generalized nth order perturbation-based stochastic method
for exact geometric modeling of (composite) structures: Static and dynamic
analysis with random material parameters. <b><i>Computer Methods in Applied Mechanics and
Engineering, </i></b>346(2019) 1002-1024.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[4] <b>C.S. Ding, </b>X.Y. Cui, G.Y. Huang, G.Y. Li, K.K. Tamma,
Exact and efficient isogeometric reanalysis of accurate shape and boundary
modifications. <b><i>Computer Methods in Applied Mechanics and Engineering,</i></b>318(2017)
619-635.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
<a name="OLE_LINK28"></a><a name="OLE_LINK27"></a>[5] <b>C.S. Ding,</b> K.K. Tamma, H.
Lian, Y. Ding, T.J. Dodwell, S.P.A. Bordas, Uncertainty Quantification of
spatially uncorrelated loads with a reduced-order stochastic isogeometric
method. <b><i>Computational Mechanics </i></b><b>67 </b>(2021)<b> </b>1255–1271.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[6] <b>C.S. Ding, </b>X.Y. Cui, R.R. Deokar, G.Y. Li, Y. Cai,
K.K. Tamma, Proper orthogonal decomposition Monte Carlo simulation based
isogeometric stochastic method for material, geometric and force
multi-dimensional uncertainties. <b><i>Computational Mechanics</i></b><i>,</i> 63(3) (2019)521-533.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[7] <b>C.S. Ding, </b>X.Y, Cui, G.Y. Li, Accurate analysis and
thickness optimization of tailor rolled blanks based on isogeometric analysis. <b><i>Structural
and Multidisciplinary Optimization</i></b><i>, </i>54(4) (2016) 871-887. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[8] <b>C.S. Ding</b>, K.K. Tamma, Y.J. Ding, X.Y. Cui, G.Y.
Li, S.P.A. Bordas. A n-th order perturbation based stochastic isogeometric
method for quantifying geometric uncertainty in shell structures. <b><i>Advances
in Engineering Softwar</i>e</b><i>,</i> 148
(2020) 102866.
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
<a name="OLE_LINK10"></a><a name="OLE_LINK9"></a><a name="OLE_LINK18"></a><a name="OLE_LINK17"></a>[9] <b>C.S. Ding, </b>X.Y.
Cui, R.R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma,
Modeling and simulation of steady heat transfer analysis with material
uncertainty: Generalized nth order perturbation isogeometric stochastic method. <b><i>Numerical
Heat Transfer, Part A: Applications</i></b><i>.</i><b> </b>74(09) (2018)1565-1582.<b> (IF= 2.928, JCR Q2)</b>
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[10] <b>C.S. Ding,</b> X.Y. Cui, R R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma, An isogeometric independent
coefficients (IGA-IC) reduced order method for accurate and efficient transient
nonlinear heat conduction analysis. <b><i>Numerical Heat Transfer, Part A:
Applications, </i></b>73(10) (2018) 667-684.
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[11] <b>C.S. Ding</b>,
X.Y. Cui, G.X. Huang, G.Y. Li, K.K. Tamma, Isogeometric independent
coefficients method for fast reanalysis of structural modifications. <b><i>Engineering
Computations. </i></b>37(4) (2019) 1341-1368<b>. </b>
</p>
<p class="MsoListParagraph" style="margin-left:21.0pt;text-indent:-21.0pt;">
[12] <b>C.S. Ding, </b>X.Y.
Cui, G.X. Huang, G.Y. Li, Y. Cai, K.K. Tamma, A gradient-based shape
optimization scheme via isogeometric exact reanalysis. <b><i>Engineering Computations, </i></b>35 (8) (2018) 2696-2721.
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[13] <b>C.S.
Ding,</b> X.Y.<b> </b>Cui, G.Y. Li, A multi-level refinement
adaptive scheme with high efficiency and accuracy, <b><i>Engineering Computations</i></b><i>,</i> 33(7) (2016) 2216-2236. <b></b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[14] B. Wang, Y. Cai<b>*</b>, X.Y. Cui, <b>C.S. </b><b>Ding*, </b>Z.C. Li,Stochastic stable node-based smoothed
finite element method for uncertainty and reliability analysis of
thermo-mechanical problems<b><i>. Engineering Analysis with Boundary
Elements </i></b>114 (2020) 23-44<b>.</b>
</p>
<p class="MsoNormal" style="margin-left:21.0pt;text-align:justify;text-indent:-21.0pt;">
[15] L.L. Chen, Y. Zhang, H. Lian∗, E. Atroshchenko, <b>C.S. Ding</b><b>∗</b><b>,</b> S.P.A. Bordas, Seamless integration of
computer-aided geometric modeling and acoustic simulation: isogeometric
boundary element methods based on Catmull-Clark subdivision surfaces. <b><i>Advances in Engineering Softwar</i></b><b>e </b>149 (2020). 102879.<b></b>
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段慧玲
<p class="MsoNormal">
<br />
</p>
<p class="MsoNormal">
迄今已在国内外学术杂志发表论文230余篇。引用情况:Web of Science H-指数43。 <span></span>
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>1. </b>Ji
Songsong, Li Hongyuan, Du Zengzhi, Lv Pengyu, Duan Huiling*; Influence of
interfacial coupled flow on slip boundary over a microstructured surface;
Physical Review Fluids; 2023, 8(5): 054003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>2. </b>Zhao
Feng, Liu Wenbin, Sui Haonan, Fu Jiaqi, Cheng Yangyang, Zhang Jingyu, Duan
Huiling*; Model for deformation-induced martensitic transformation in
irradiated materials; Proceedings of the Royal Society A: Mathematical,
Physical and Engineering Science; 2023, 479(2272): 20220633.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>3. </b>Xu
Baorui, Li Hongyuan, Liu Xiaochao, Xiang Yaolei, Lv Pengyu, Tan Xiangkui, Zhao
Yaomin, Sun Chao, Duan Huiling*; Effect of micro-grooves on drag reduction in
Taylor-Couette flow; Physics of Fluids; 2023, 35(4): 043608.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>4. </b>Liu
Wenbin, Cheng Yangyang, Sui Haonan, Fu Jiaqi, Duan Huiling*;
Microstructure-based intergranular fatigue crack nucleation model: Dislocation
transmission versus grain boundary cracking; Journal of the Mechanics and
Physics of Solids; 2023, 173: 105233.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>5. </b>Zhang
Jingyu, Ding Shurong, Duan Huiling*; Modeling of irradiation growth of Zr
single crystals with diffusion anisotropy; Journal of Nuclear Materials; 2023,
577: 154295.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>6. </b>Chen
Guoqing, Li Hongyuan, Lv Pengyu, Duan Huiling*; An improved multiphase lattice
Boltzmann flux solver with phase interface compression for incompressible
multiphase flows; Physics of Fluids; 2023, 35(1): 013310.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>7. </b>Cao
Yufan, Wang Xiangyu, Yuan Huijing, Duan Huiling, Sun Zhili, Li Hongyuan*, Lv
Pengyu*; Correlation-based algorithms for accurate PIV measurement near the
slip boundary; Measurement Science and Technology; 2023, 34(1): 015302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>8. </b>Du Zengzhi, Li Hongyuan, Cao Yufan, Wan Xia, Xiang Yaolei, Lv
Pengyu, Huiling Duan*; Control of flow separation using biomimetic shark scales
with fixed tilt angles; Experiments in Fluids; 2022, 63(10): 158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>9. </b>Sui Haonan, Yu Long, Liu Wenbin, Liu Ying, Duan Huiling*; Model
of void nucleation on grain boundaries in dynamic failure of ductile metals
incorporating interface incompatibility; Journal of the Mechanics and Physics
of Solids; 2022, 168: 105032.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>10. </b>Li Qi, Liu Weixuan, Yang Canhui, Rao Ping,
Lv Pengyu, Duan Huiling, Hong Wei*; Kirigami-inspired adhesion with high
directional asymmetry; Journal of the Mechanics and Physics of Solids; 2022,
169: 105053.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>11. </b>Li Xiying, Wang Shuang, Lu Lu, Lv Pengyu, Duan Huiling*; A
micromechanical model for phase-change composites; Proceedings of the Royal
Society A: Mathematical, Physical and Engineering
Sciences; 2022, 478(2261): 20220054.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>12. </b>Duan Huiling*, Wang Jianxiang, Huang Zhuping; Micromechanics of
composites with interface effects; Acta Mechanica Sinica; 2022, 38(4): 1-20.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>13. </b>Lu Lu, Dang Xiangxin, Feng Fan, Lv Pengyu, Duan Huiling*; Conical
kresling origami and its applications to curvature and energy programming; Proceedings of the
Royal Society A:
Mathematical, Physical and Engineering Sciences; 2022, 478(2257), 20210712.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<a name="_Hlk119339551"></a><b>14. </b>Liu Wenbin, Chen Lirong, Yu Long, Fu Jiaqi, Duan Huiling*;
Continuum modeling of dislocation channels in irradiated metals based on
stochastic crystal plasticity; International Journal of Plasticity; 2022,
151: 103211.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>15. </b>Li Hongyuan, Cao Yufan, Wang Xiangyu, Wan
Xia, Xiang Yaolei, Yuan Huijing, Lv Pengyu, Duan Huiling*; Accurate PIV
measurement on slip boundary using single-pixel algorithm; Measurement
Science and Technology; 2022, 33(5):
055302.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>16. </b>Liu Wenbin, Yu Long, Liu Ying, Sui
Haonan, Fan Haidong, Duan Huiling*; Dislocation pile-up polarization model for
mechanical properties of polycrystalline metals based on grain boundary
resistance variability; Journal of the Mechanics and Physics of Solids; 2022,
160: 104793.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>17. </b>Dang Xiangxin, Feng Fan, Duan Huiling,
Wang Jianxiang*; A theorem on the compatibility of spherical kirigami
tessellations; Physical
Review Letters; 2021, 128(3): 035501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>18. </b>Zhang Yuan, Tan Xiangkui, Li Xiying, Lv Pengyu, Huang Tianyun,
Yang Jianying, Duan Huiling*; 3D propulsions of rod‐shaped micropropellers; Advanced
Intelligent Systems; 2021, 3(11): 2100083.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>19. </b>Ji Suchun, Li Xiying, Chen Qianying, Lv Pengyu, Duan Huiling*; Enhanced
locomotion of shape morphing microrobots by surface coating; Advanced
Intelligent Systems; 2021, 3(7): 2000270.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>20. </b>Dang Xiangxin, Feng Fan, Duan Huiling, Wang Jianxiang*; Theorem
for the design of deployable kirigami tessellations with different topologies; Physical Review E;
2021, 104(5): 055006.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>21. </b>Chen Qianying, Huang Tianyun, Lv Pengyu, Huang Jianyong, Duan Huiling*;
Programmable self-locking micromachines with tunable couplings; Advanced
Intelligent Systems; 2021, 3(10): 2000232.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>22. </b>Wang Gang, Li Xiying, Tan Xiangkui, Ji Songsong,
Huang Jianyong, Duan Huiling, Lv Pengyu*; Motion enhancement of spherical surface walkers with
microstructures; Advanced Intelligent Systems; 2021, 3(6): 2000226.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>23. </b>Liu
Wenbin, Liu Ying, Sui Haonan, Chen Lirong, Yu Long, Yi Xin, Duan Huiling*; Dislocation-grain boundary interaction in metallic materials:
Competition between dislocation transmission and dislocation source activation;
Journal of the Mechanics and Physics of Solids; 2020, 145: 104158.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>24. </b>Liu
Hao, Zhou Hao, Kang Wei*, Zhang
Ping, Duan
Huiling, Zhang Weiyan, He Xiantu; Dynamics of
bond breaking and formation in polyethylene near shock front; Physical Review
E; 2020, 102(2): 023207.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>25. </b>Li Hongyuan, Li Zexiang, Tan Xiangkui,
Wang Xiangyu, Huang Shenglin, Xiang Yaolei, Lv Pengyu*, Duan Huiling*;
Three-dimensional backflow at liquid-gas interface induced by surfactant;
Journal of Fluid Mechanics; 2020, 899(25): A8.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>26. </b>Liu
Wenbin, Liu Ying, Cheng Yangyang, Chen Lirong, Yi Xin, Duan Huiling*;
Unified model for size-dependent to size-independent transition in yield
strength of crystalline metallic materials; Physical Review Letters; 2020,
124(23): 235501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>27. </b>Huang Tianyun, Huang Hengwei, Jin
DongDong, Chen Qianying, Huang Jianyong, Zhang Li, Duan Huiling*; Four-dimensional
micro-building blocks; Science Advances; 2020, 6(3): eaav8219.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>28. </b>Xiang Yaolei, Huang Shenglin, Huang Tianyun, Dong Ao, Cao Di, Li
Hongyuan, Xue Yahui, Lv Pengyu, Duan Huiling*; Superrepellency of underwater hierarchical structures on
Salvinia leaf; Proceedings of the National Academy of Sciences of the United
States of America; 2020, 117(5): 2282-2287.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>29. </b>Chen Lirong, Liu Wenbin, Yu Long, Cheng Yangyang, Ren Ke, Sui Haonan, Yi Xin*, Duan Huiling*; Probabilistic and constitutive models for ductile-to-brittle
transition in steels: A competition between cleavage and ductile fracture;
Journal of the Mechanics and Physics of Solids; 2020, 135: 103809.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>30. </b>Chen
Qianying,
Lv Pengyu, Huang Tianyun, Huang Jianyong*,
Duan Huiling*; Encoding smart micro-joints for
micro-crawlers with enhanced locomotion; Advanced Intelligent Systems; 2020,
2(3): 1900128.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>31. </b>Jin DongDong<sup>#</sup>, Chen Qianying<sup>#</sup>,
Huang Tianyun*,
Huang Jianyong,
Zhang Li, Duan Huiling; Four-dimensional direct laser writing of reconfigurable
compound micromachines; Materials Today; 2020, 32: 19-25.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>32. </b>Li Hongyuan, Ji SongSong, Tan Xiangkui,
Li Zexiang, Xiang Yaolei, Lv
Pengyu*, Duan Huiling*; Effect
of reynolds number on drag reduction in turbulent boundary layer flow over
liquid-gas interface; Physics of Fluids; 2020, 32(12): 122111.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>33. </b>Li Zexiang, Ji Songsong, Duan Huiling,
Lan Shilong, Zhang Jinbai, Lv
Pengyu*; Coupling effect of wall
slip and spanwise oscillation on drag reduction in turbulent channel flow;
Physical Review Fluids; 2020, 5(12): 124601.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>34. </b>Liu
Huan, Zhang Quan, Zhang Kai*, Hu Gengkai, Duan Huiling*; Designing 3D digital
metamaterial for elastic waves: from elastic wave polarizer to vibration
control; Advanced Science; 2019, 6(16): 1900401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>35. </b>Liu Wenbin, Chen Lirong, Cheng Yangyang, Yu Long, Yi
Xin, Gao Huajian, Duan Huiling*; Model of nanoindentation size effect
incorporating the role of elastic deformation; Journal of the Mechanics and
Physics of Solids; 2019, 126: 245-255.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>36. </b>Li Xiying, Zhang Jiaming*, Yi
Xin*, Huang Zhongyi, Lv Pengyu, Duan Huiling; Multimaterial microfluidic 3D
printing of textured composites with liquid inclusions; Advanced Science; 2019,
6(3): 1800730.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>37. </b>Cheng
Yangyang, Yu Long, Chen Lirong,
Liu Wenbin, Yi Xin*, Duan Huiling*;
Failure of fracture toughness criterion at small scales; Physical Review
Materials; 2019, 3(11): 113602.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>38. </b>Chen Lirong, Xiao Xiazi, Yu Long, Chu Haijian, Duan
Huiling*; Texture evolution and mechanical behaviour of irradiated face-centred
cubic metals; Proceedings of the Royal Society A: Mathematical, Physical and
Engineering Sciences; 2018, 474(2210): 20170604.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>39. </b>Guo
Xiao, Liu Huan, Zhang Kai, Duan Huiling*; Dispersion relations of elastic waves
in two-dimensional tessellated piezoelectric phononic crystals; Applied
Mathematical Modelling; 2018, 56: 65-82.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>40. </b>Lv
Pengyu, Xiang Yaolei, Xue Yahui, Lin
Hao, Duan Huiling*; Morphological bubble evolution induced by air diffusion on
submerged hydrophobic structures; Physics of Fluids; 2017, 29(3): 032001.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>41. </b>Liu
Hao, Zhang Yin, Kang Wei*, Zhang Ping, Duan Huiling, He Xiantu*; Molecular
dynamics simulation of strong shock waves propagating in dense deuterium,
taking into consideration effects of excited electrons; Physical Review E;
2017, 95(2): 023201.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>42. </b>Xiang
Yaolei, Huang Shenglin, Lv Pengyu, Xue Yahui, Su Qiang, Duan Huiling*; Ultimate
stable underwater superhydrophobic state; Physical Review Letters; 2017,
119(13): 134501.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>43. </b>Xue
Yahui, Lv Pengyu, Lin Hao, Duan Huiling*; Underwater superhydrophobicity:
stability, design and regulation, and applications; Applied Mechanics Reviews;
2016, 68(3): 030803.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>44. </b>Xiang
Yaolei, Xue Yahui, Lv Pengyu, Li Dandan, Duan Huiling*; Influence of fluid flow
on the stability and wetting transition of submerged superhydrophobic surfaces;
Soft Matter; 2016, 12(18): 4241-4246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>45. </b>Xiao
Xiazi, Song Dingkun, Xue Jianming, Chu Haijian*, Duan Huiling*; A self-consistent
plasticity theory for modeling the thermo-mechanical properties of irradiated
FCC metallic polycrystals; Journal of the Mechanics and Physics of Solids;
2015, 78: 1-16.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>46. </b>Terentyev
Dmitry*, Xiao Xiazi, Dubinko Andrii., Alexander Bakaev, Duan Huiling*;
Dislocation-mediated strain hardening in tungsten: Thermo-mechanical plasticity
theory and experimental validation; Journal of the Mechanics and Physics of
Solids; 2015, 85: 1-15.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>47. </b>Xue
Yahui, Yang Yanbing, Sun Hui, Li Xiying, Wu Shiting, Cao Anyuan*, Duan
Huiling*; A switchable and compressible carbon nanotube sponge electrocapillary
imbiber; Advanced Materials; 2015, 27(44): 7241-7246.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>48. </b>Xue
Yahui, Lv Pengyu, Liu Ying, Shi Yipeng, Lin Hao*, Duan Huiling*; Morphology of
gas cavities on patterned hydrophobic surfaces under reduced pressure; Physics
of Fluids; 2015, 27(9): 092003.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>49. </b>Song
Dingkun, Xiao Xiazi, Xue Jianming, Chu Haijian, Duan Huiling*; Mechanical
properties of irradiated multi-phase polycrystalline BCC materials; Acta
Mechanica Sinica; 2015, 31(2): 191-204.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>50. </b>Xiao
Xiazi, Song Dingkun, Chu Haijian, Xue Jianming, Duan Huiling*; Mechanical
properties for irradiated face-centred cubic nanocrystalline metals;
Proceedings of the Royal Society A: Mathematical, Physical and Engineering
Sciences; 2015, 471(2177): 20140832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>51. </b>Lv
Pengyu, Xue Yahui, Shi Yipeng, Lin Hao*, Duan Huiling*; Metastable states and
wetting transition of submerged superhydrophobic structures; Physical Review
Letters; 2014, 112(19): 196101.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>52. </b>Xue Yahui, Markmann Jurgen, Duan Huiling*,
Weissmüller Jorg, Huber Patrick*; Switchable imbibition in nanoporous gold;
Nature Communications; 2014, 5(1): 4237.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>53. </b>Liu
Yingjie, Lv Pengyu, Ma Jun, Bai Ruobing, Duan Huiling*; Stress fields in hollow
core-shell spherical electrodes of lithium ion batteries; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2172): 20140299.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>54. </b>Xue
Yahui, Yuan Huijing, Su Weidong, Shi Yipeng*, Duan Huiling*; Enhanced
load-carrying capacity of hairy surfaces floating on water; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2014,
470(2165): 20130832.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>55. </b>Lanza
Mario, Bayerl Albin, Gao Teng, Porti Marc, Nafria Montserrat, Jing Guangyin,
Zhang Yanfeng, Liu Zhongfan, Duan Huiling*; Graphene-coated atomic force
microscope tips for reliable nanoscale electrical characterization; Advanced
Materials; 2013, 25(10): 1440-1444.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>56. </b>Xue Yahui, Chu Shigan, Lv Pengyu, Duan
Huiling*; Importance of hierarchical structures in wetting stability on
submersed superhydrophobic surfaces; Langmuir;
2012, 28(25): 9440-9450.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>57. </b>Wang
Yan, Jörg Weissmüller*, Duan Huiling*; Mechanics of corrugated surfaces;
Journal of the Mechanics and Physics of Solids; 2010, 58(10): 1552-1566.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>58. </b>Zhang
Kai, Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang; Hierarchical,
multilayered cell walls reinforced by recycled silk cocoons enhance the
structural integrity of honeybee combs; Proceedings of the National Academy of
Sciences of the United States of America; 2010, 107(21): 9502-9506.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>59. </b>Duan
Huiling*, Xue Yahui, Yi Xin; Vibration of cantilevers with rough surfaces; Acta
Mechanica Solida Sinica; 2009, 22(6): 550-554.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>60. </b>Yi Xin, Duan Huiling*; <a name="OLE_LINK2"></a><a name="OLE_LINK1"></a>Surface stress induced by interactions of adsorbates and its effect
on deformation and frequency of microcantilever sensors; Journal of the
Mechanics and Physics of Solids; 2009, 57(8): 1254-1266.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>61. </b>Wang
Yan, Weissmüller Jorg, Duan Huiling*; <a name="OLE_LINK4"></a><a name="OLE_LINK3"></a>Tuning and monitoring of
quantum dot growth by an in situ cantilever; Physical Review B;
2009, 79(4): 045401.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>62. </b>Duan
Huiling*, Weissmüller Jorg, Wang Yan; Instabilities of core-shell
heterostructured cylinders due to diffusions and epitaxy: spheroidization and
blossom of nanowires; Journal of the Mechanics and Physics of Solids; 2008,
56(5): 1831-1851.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>63. </b>Weissmuller
Jorg*, Duan Huiling*; Cantilever bending with rough surfaces; Physical Review Letters; 2008, 101(14): 146102.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>64. </b>Duan Huiling, Wang Jianxiang, Karihaloo Bhushan Lal*; Theory of elasticity
at the nanoscale; Advances in Applied Mechanics; 2008, 42: 1-68.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>65. </b>Duan
Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*;
A unified scheme for prediction of effective moduli of multiphase composites
with interface effects. part I: theoretical framework; Mechanics of Materials; 2007, 39(1): 81-93.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>66. </b>Duan Huiling, Yi Xin, Huang Zhuping, Wang Jianxiang*; A unified scheme for
prediction of effective moduli of multiphase composites with interface effects:
part II-application and scaling laws;
Mechanics of Materials; 2007, 39(1): 94-103.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>67. </b>Duan
Huiling, Karihaloo Bhushan Lal*; Thermo-elastic properties of heterogeneous
materials with imperfect interfaces: Generalized Levin's formula and Hill's
connections; Journal of the Mechanics and Physics of Solids; 2007, 55(5):
1036-1052.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>68. </b>Duan Huiling, Karihaloo Bhushan Lal*;
Effective thermal conductivities of heterogeneous media containing multiple
imperfectly bonded inclusions; Physical
Review B; 2007, 75(6): 064206.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>69. </b>Duan
Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin; Compatible composition
profiles and critical sizes of alloyed quantum dots; Physical Review B; 2006,
74(19): 195328.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>70. </b>Duan
Huiling, Yang Jiao, Yi Xin, Huang Zhuping, Wang Jianxiang*; Solutions of
inhomogeneity problems with graded shells and application to core-shell
nanoparticles and composites; Journal of the Mechanics and Physics of Solids;
2006, 54(7): 1401-1425.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;vertical-align:bottom;">
<b>71. </b>Duan Huiling, Karihaloo Bhushan Lal*, Wang Jianxiang, Yi Xin;
Effective conductivities of heterogeneous media containing multiple inclusions
with various spatial distributions; Physical Review B; 2006, 73(17): 174203.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>72. </b>Wang Jianxiang,
Duan Huiling, Huang Zhuping, Karihaloo Bhushan Lal*; A scaling law for
properties of nano-structured materials; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2006, 462(2069): 1355-1363.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>73. </b>Wang
Jianxiang*, Duan Huiling, Yi Xin; Bounds on effective conductivities of
heterogeneous media with graded constituents; Physical Review B; 2006, 73(10):
104208.
</p>
<p class="MsoNormal" align="left" style="margin-left:42.0pt;text-align:left;text-indent:-21.0pt;">
<b>74. </b>Jing Guangyin, Duan Huiling, Sun X. M.,
Zhang Z. S., Xu J., Li Y. D., Wang Jianxiang, Yu Dapeng*; Surface effects on
elastic properties of silver nanowires: Contact atomic-force microscopy;
Physical Review B; 2006, 73(23): 235409.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>75. </b>Duan
Huiling, Wang Jianxiang*, Huang Zhuping, Zhong Yiling; Stress fields of a
spheroidal inhomogeneity with an interphase in an infinite medium under remote
loadings; Proceedings of the
Royal Society A: Mathematical, Physical and Engineering Sciences; 2005, 461(2056): 1055-1080.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>76. </b>Duan Huiling, Wang Jianxiang*, Huang
Zhuping, Karihaloo Bhushan Lal; Size-dependent effective elastic constants of
solids containing nano-inhomogeneities with interface stress; Journal of The
Mechanics and Physics of Solids; 2005, 53(7): 1574-1596.
</p>
<p class="MsoNormal" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>77. </b>Duan Huiling, Wang Jianxiang, Huang
Zhuping, Karihaloo Bhushan Lal*; Eshelby formalism for nano-inhomogeneities; Proceedings of the Royal Society A:
Mathematical, Physical and Engineering Sciences; 2005, 461(2062): 3335-3353.
</p>
<p class="MsoListParagraph" style="margin-left:42.0pt;text-indent:-21.0pt;">
<b>78. </b>Duan Huiling,
Wang Jianxiang*, Huang Zhuping, Luo Zhenyu; Stress concentration tensors of
inhomogeneities with interface effects; Mechanics of Materials; 2005, 37(7):
723-736.
</p>
<p>
<br />
</p>
段志生
段志生
1910
北京大学的工科教育历史悠久,1910年3月即组织了工学院(当时称工科分科大学),下设土木、矿冶两个系(当时称门)。1916年以后,北大工学院经过停办、再建、扩大,到1952年已培养了近 5000名学生;其后工学院的师生中陆续有23人(教师12人、毕业生11人)入选两院院士。
方竞
冯帆
<p class="MsoNormal">
<span lang="EN-GB">Google Scholar: https://scholar.google.com/citations?user=7sla8m0AAAAJ<o:p></o:p></span>
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<b><span lang="EN-GB"><o:p> </o:p></span></b>
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Phase transformations and compatibility in </span>helical structures. Journal of the
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<span lang="EN-GB">[2] F. Feng, P. Plucinsky, and R. D. James.
Helical Miura origami. Physical Review E,</span>101(3):033002, 2020.
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<span lang="EN-GB">[3] F. Feng, X. Dang, R. D. James, and P.
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<span lang="EN-GB">[4] F. Feng, J. S. Biggins, and M. Warner.
Evolving, complex topography from combining </span>centers of Gaussian curvature. Physical
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<span lang="EN-GB">[5] H. Liu, P. Plucinsky, F. Feng, and R.
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<span lang="EN-GB">[6] X. Dang, F. Feng, H. Duan, and J. Wang.
Theorem on the compatibility of spherical </span>kirigami tessellations. Physical Review
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<span lang="EN-GB">[7] X. Dang, F. Feng, P. Plucinsky, R. D.
James, H. Duan, and J. Wang. Inverse design of </span>deployable origami structures that
approximate a general surface. International Journal of Solids and Structures, 234:111224, 2022.
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<span lang="EN-GB">[8] F. Feng, D. Duffy, M. Warner, and J. S.
Biggins. Interfacial metric mechanics: stitch-</span>ing patterns of shape change in active
sheets. Proceedings of the Royal Society A, 478(2262):20220230, 2022.
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<span lang="EN-GB">[9] M. Barnes, F. Feng, and J. S. Biggins.
Surface instability in a nematic elastomer. Physical Review Letters,
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符策基
符策基
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
国萌
[1] Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation. Meng Guo, Mathias Buerger. IEEE Transactions on Robotics (TRO), 2021.<br />
[2] Multi-Robot Data Gathering Under Buffer Constraints and Intermittent Communication. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Robotics (TRO), 34(4): 1082-1097, 2018.<br />
[3] Probabilistic Motion Planning under Temporal Tasks and Soft Constraints. Meng Guo and Michael M. Zavlanos. IEEE Transactions on Automatic Control (TAC), 63(12): 4051-4066, 2018.<br />
[4] Communication-Free Multi-Agent Control under Local Temporal Tasks and Relative-Distance Constraints. Meng Guo, Jana Tumova and Dimos V. Dimarogonas. IEEE Transactions on Automatic Control (TAC), 61(12): 3948-3962, 2016. <br />
[5] Multi-agent Plan Reconfiguration under Local LTL Specifications. Meng Guo and Dimos V. Dimarogonas. International Journal of Robotics Research (IJRR), 34(2): 218-235, 2015.
何冠楠
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <b><span>G. He</span></b><span>, Q. Chen, P. Moutis, S. Kar, and J. F. Whitacre*, "An
Intertemporal Decision Framework for Electrochemical Energy Storage
Management," <i>Nature Energy</i>, 3, 404-412 (2018).</span>
</p>
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2. <b><span>G. He</span></b><span>, J. Michalek, S. Kar, Q. Chen, D. Zhang*, and J. F. Whitacre*,
"Utility-Scale Portable Energy Storage Systems," <i>Joule</i>, 5,
379-392 (2021). </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b><span>G. He</span></b><span>*, D. S. Mallapragada, A. Bose, C. F. Heuberger, and E. Gençer,
"Sector coupling via hydrogen to lower the cost of energy system
decarbonization," <i>Energy & Environmental Science,</i> 14, 4635-4646
(2021).</span>
</p>
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4. <span>J. Wang, L. Chen, Z. Tan, E. Du,
N. Liu, J. Ma, M. Sun, C. Li, J. Song, X. Lu*, C. W. Tan*, and <b>G. He</b>*. "Inherent
spatiotemporal uncertainty of renewable power in China," <i>Nature
Communications</i>, 14(1), 5379 (2023).</span>
</p>
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5. <span>J. Zhang, Y. Wang, B. Jiang, H.
He, S. Huang, C. Wang, Y. Zhang, X. Han, D. Guo, <b>G. He</b>* and M. Ouyang*. "Realistic
fault detection of li-ion battery via dynamical deep learning," <i>Nature
Communications</i>, 14(1), 5940. (2023).</span>
</p>
何冠楠
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <b><span>G. He</span></b><span>, Q. Chen, P. Moutis, S. Kar, and J. F. Whitacre*, "An
Intertemporal Decision Framework for Electrochemical Energy Storage
Management," <i>Nature Energy</i>, 3, 404-412 (2018).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <b><span>G. He</span></b><span>, J. Michalek, S. Kar, Q. Chen, D. Zhang*, and J. F. Whitacre*,
"Utility-Scale Portable Energy Storage Systems," <i>Joule</i>, 5,
379-392 (2021). </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b><span>G. He</span></b><span>*, D. S. Mallapragada, A. Bose, C. F. Heuberger, and E. Gençer,
"Sector coupling via hydrogen to lower the cost of energy system
decarbonization," <i>Energy & Environmental Science,</i> 14, 4635-4646
(2021).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>J. Wang, L. Chen, Z. Tan, E. Du,
N. Liu, J. Ma, M. Sun, C. Li, J. Song, X. Lu*, C. W. Tan*, and <b>G. He</b>*. "Inherent
spatiotemporal uncertainty of renewable power in China," <i>Nature
Communications</i>, 14(1), 5379 (2023).</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <span>J. Zhang, Y. Wang, B. Jiang, H.
He, S. Huang, C. Wang, Y. Zhang, X. Han, D. Guo, <b>G. He</b>* and M. Ouyang*. "Realistic
fault detection of li-ion battery via dynamical deep learning," <i>Nature
Communications</i>, 14(1), 5940. (2023).</span>
</p>
贺贤土
黄建永
黄建永
黄建永
黄琳
黄琳
1952
1952年全国院系调整,北大工学院的机械、电机、土木、建筑四个系合并到清华大学,化工系合并到天津大学;北京大学工学院建制取消。
黄天云
黄天云
黄天云
黄源浩
黄源浩
黄迅
黄迅
黄迅
黄迅
黄迅
康炜
孔诗涵
<p>
1. A NSGA-II-based calibration algorithm for underwater binocular vision measurement system.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Instrumentation and Measurement</span>
</p>
<p>
2. ESO-based controller with model predictive governor for 3D trajectory tracking of underactuated underwater vehicles.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Industrial Informatics</span></span>
</p>
<p>
3. IWSCR: An intelligent water surface cleaner robot for collecting floating garbage.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Systems, Man, and Cybernetics: Systems</span>
</p>
<p>
4. An FM*-based comprehensive path planning system for robotic floating garbage cleaning.IEEE Transactions on <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">Intelligent Transportation Systems</span>
</p>
<p style="text-wrap:wrap;">
<span style="text-wrap:wrap;">5. Piecewise compensation model predictive governor combined with conditional disturbance negation for underactuated AUV tracking control.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Industrial Electronics</span></span>
</p>
<p style="text-wrap:wrap;">
6. A collision-free target tracking controller with uncertain disturbance rejection for quadruped robots.IEEE Transactions <span style="color:#333333;font-family:"text-wrap:wrap;background-color:#F5F8FC;">on Intelligent Vehicles</span>
</p>
<p>
<br />
</p>
<p>
<br />
</p>
<p>
<br />
</p>
黎波
<p class="MsoNoSpacing" style="margin-left:0cm;">
<span><span style="font-size:14px;font-family:"">H.
Wang, X. Li, M. Phipps, B. Li*, Numerical and Experimental Study of Hot
Pressing Technique for Resin-based Friction Composites, </span><i><span style="font-size:14px;font-family:"">Composite Part A: Applied Science and Manufacturing</span></i><span style="font-size:14px;font-family:"">, Vol
153:106737, 2022.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">H.
Jiang, V. Scott, B. Li*, Modeling and simulations of high and hypervelocity
impact of small ice particles, </span><i><span style="font-size:14px;font-family:"">International
Journal of Impact Engineering</span></i><span style="font-size:14px;font-family:"">, Vol 155, 103906, 2021.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">Z.
Fan, H. Wang, H. Liao, J. Fan, X. Li, B. Li*, A Lagrangian Meshfree Mesoscale
Simulation of Powder Bed Fusion Additive Manufacturing of Metals, </span><i><span style="font-size:14px;font-family:"">International Journal for Numerical Methods
in Engineering</span></i><span style="font-size:14px;font-family:"">, 122(2), 483-514, 2020. </span></span>
</p>
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<span><span style="font-size:14px;font-family:"">H. Wang, Z. Fan, H. Liao, J. Fan, L.
Stainier, X. Li, B. Li*, The Hot Optimal Transportation Meshfree (HOTM) Method
for Materials under Extreme Dynamic Thermomechanical Conditions, </span><i><span style="font-size:14px;font-family:"">Computer Methods in Applied Mechanics and
Engineering</span></i><span style="font-size:14px;font-family:"">, 364:112958, 2020.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">H. Jiang, J. Fan, D. Hu, R. Wang, J. Lu, B.
Li*, Numerical Modeling of Compressive Failure Mechanisms in Ceramic Materials
at High Strain Rates, </span><i><span style="font-size:14px;font-family:"">Computer Methods in
Applied Mechanics and Engineering</span></i><span style="font-size:14px;font-family:"">, 347:806-826, 2019.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">J. Fan, H. Liao, R. Ke, E. Kucukal, U.
Gurkan, J. Lu, B. Li*, A Monolithic Lagrangian Meshfree Scheme for
Fluid-Structure Interaction Problems within the OTM Framework, </span><i><span style="font-size:14px;font-family:"">Computer Methods in Applied Mechanics and
Engineering</span></i><span style="font-size:14px;font-family:"">, 337:198-219, 2018.</span></span>
</p>
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<span><span style="font-size:14px;font-family:"">J. Fan, H. Liao, H. Wang, J. Hu, Z. Chen,
J. Lu, B. Li*, Local maximum-entropy based surrogate model and its application
to structural reliability analysis, </span><i><span style="font-size:14px;font-family:"">Structural
and Multidisciplinary Optimization</span></i><span style="font-size:14px;font-family:"">, 57: 373-392, 2018.</span></span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">B. Li, A. Pandolfi, M. Ortiz*,
Material-Point Erosion Simulation of Dynamic Fragmentation of Metals, </span><i><span style="font-size:14px;font-family:"">Mechanics of Materials</span></i><span style="font-size:14px;font-family:"">, 80: 288-297,
2015.</span></span>
</p>
<p class="MsoNormal">
<span style="font-size:14px;font-family:"">B. Li, A. Kidane, G. Ravichandran and M.
Ortiz*, Verification and Validation of the Optimal Transportation Meshfree
(OTM) Simulation of Terminal Ballistics, International Journal of Impact
Engineering, 42: 25-36, 2012.</span>
</p>
<p class="MsoNormal">
<span><span style="font-size:14px;font-family:"">B. Li, F. Habbal and M. Oritz*, Optimal
Transportation Meshfree Approximation Schemes for Fluid and Plastic Flows, </span><i><span style="font-size:14px;font-family:"">International Journal for Numerical Methods
in Engineering</span></i><span style="font-size:14px;font-family:"">, 83: 1541-1579, 2010.</span></span>
</p>
李阿明
李阿明
李阿明
李阿明
李存标
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia L, Zou T, Zhu Y, et al. Rotor boundary layer development with inlet guide vane (IGV) wake impingement[J]. <em>Physics of Fluids</em>, 2018, 30(4): 040911.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Yang L, Shu C, Yang W, et al. An implicit simplified sphere function-based gas kinetic scheme for simulation of 3D incompressible isothermal flows[J]. <em>Computers & Fluids, </em>2018, 160: 204-218.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Lee C B, Zhao N. Preface to Special Topic: Papers Selected from the 7th <em>International Symposium on Physics of Fluids</em>, Guiyang, China, 2017[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Cai Q, Lee C, et al. Proceedings of the Seventh I<em>nternational Symposium on Physics of Fluids </em>(ISPF7) Preface[J]. 2018.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, X., Zhu, <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C. B. 2017 Interactions between second mode and low- frequency waves in a hypersonic boundary <span style="letter-spacing:-0.15pt;">layer. </span><em>Journal of Fluid Mechanics</em>. 820: 693-735.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia, L. C., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Jia, <span style="letter-spacing:-0.8pt;">Y. </span>X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., C. B. Lee 2017, Image-processing method for near-wall PIV measurements around a moving interface. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>28, 035201.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhang, C. H., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen, X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C.B. and Gad-el-Hak, M. 2015, Transition in hypersonic boundary layers. <em>AIP Advances </em>5,107137</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;"><span style="letter-spacing:-0.2pt;">Tang, </span>Q., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen X., Lee, C. B. 2015, Development of second-mode instability in a Mach 6 flat plate boundary layer with two-dimensional roughness. <em>Phys. Fluids </em>27, 064105.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., and Lee, C. B. 2015, Experimental investigations of the initial growth of flow asymmetries over a slender body of revolution at high angles of attack. <em>Phys. Fluids </em>27, 084103.Zhang, C. H., <span style="letter-spacing:-0.2pt;">Tang,</span> Q. & Lee, C. B. 2013, Hypersonic boundary-layer transition on a flared cone. <em>Acta Mech. Sin. </em>29 (1), 48–53.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Su, Z., Zhong, H. J., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2013, Experimental investigation of freely falling thin disks. Part 2: Transition of three- dimensional motion from zigzag to spiral. <em>Journal of Fluid Mechanics</em>. 732, 77– 104.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Zhang, C. H. & Lee, C. B. 2013, Image preprocessing method for near-wall particle image velocimetry (PIV) image interrogation with very large in-plane displacement. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>24, 125302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B., Su, Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z.2013, Experimental of freely falling thin disks. Part 1: The flow structures and Reynolds number effects on the zigzag motion. <em>Journal of Fluid Mechanics. </em>716, 228–250.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Hong-Jie, Zhong, Cun-Biao. 2012, The wake of falling disks at low reynolds numbers. <em>Acta Mech. Sin., </em>28(2), 367-371.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S.Z., Xu, K. and Lee, C.B. 2012, The dynamic mechanism of a moving Crookes radiometer, <em>Phys. Fluids </em>24, <span style="letter-spacing:-0.15pt;">111701.</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Xu, K., Lee, C. B., Cai, Q. D. 2012, A unified gas kinetic scheme with moving mesh and velocity space adaptation<em>. J. Comput. Phys</em>. 231(20): 6643-6664.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Jin, C. Q., Lee, C. B., Cai, Q. D. 2011, Gas kinetic scheme with discontinuous derivative for low speed flow computation, <em>J. Comput. Phys, </em>230 (5): 2045-2059</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Zhou, M. D., Hussain, <span style="letter-spacing:-0.5pt;">F. </span>2011, Experimental studies of surface waves inside a cylindrical container. <em>Journal of Fluid Mechanics. </em>677, 39–62.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, M., Lee, C. B. 2010, Frontal instability of lock-exchange gravity currents, <em>Mod. Phys. Lett. B</em>, 24 (13): 1369-1372</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B. 2009, Paths of freely falling disks. <em>Mod. Phys. Lett. B </em>23 (3), 373–376.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span>Lee, C. B. 2009, Periodic tripling and jet eruption of forced steep gravity waves, <em>Mod. Phys. Lett. B, </em>23 (3): 397-400</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2008 Transition in wall-bounded flows. <em>Appl. Mech. <span style="letter-spacing:-0.25pt;">Rev. </span></em>61, 030802.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Li, R. Q. 2007Dominant structure for turbulent production in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>J. of Turbulence., </em>8 (55): 1-34</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">J. B. Zhu, C. B. Lee 2006, PIV observation of instantaneous velocity structure of lock release gravity currents in the slumping phase, <em>Communications in Nonlinear Science and Numerical Simulation </em>11(2), 262-270</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">C. B. Lee, R. Li, 2006, Recent progress in dynamics of boundary layer transition, <em>Journal of Hydrodynamics, Ser. B</em>, 18(3), 26-30</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Lee, C. B. 2005, Breakup of oil film with holes on quiescent water surface, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1591-1594</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.25pt;">Wang, </span>D. J., Lee, C. B. 2005, Nonlinear low frequency water waves in a cylindrical shell, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1615-1618</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2005, Problems in the paper "A link between chaos dynamics and the onset of turbulence in a transitional boundary layer", <em>Acta Phys. Sin. </em>54 (1): 481-482</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Cai, Q. D., Lee, C. B.2004, Limitation for the energy spectrum analysis for the understanding of the turbulent cascade, <em>Acta Phys. Sin</em>., 53 (9): 3090-3093</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2003, Breakdown of the chain of ring vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics, </em>12 (12): 1429-1434</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2002, A link between chaos dynamics and the onset of turbulence in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (8): 1743-1749</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. </span>R., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Meyer, D., Rist, U., Lian, Q. X., Lee, C. B.2002, Late-stage transitional boundary-layer structures. Direct numerical simulation and experiment, <em>Theroet. Comput. Fluid Dyn</em>. 15 (5): 317-337</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Gong, A. L., Li, R. Q., Lee, C. B. 2002, On the generation of low-frequency signals in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (5): 1068-1074</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2001, On the formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Exp. Fluids, </em>30 (3): 354-357</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.2000 Possible universal transitional scenario in a flat plate boundary layer: Measurement and visualization, <em>Phys. <span style="letter-spacing:-0.25pt;">Rev. </span>E, </em>62 (3): 3659-3670</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Hong, Z. X., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. V. </span>2000 A study in transitional flat plate boundary layers: measurement and visualization, <em>Exp. Fluids</em>, 28 (3): 243-251</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.1998 New features of CS solitons and the formation of vortices, <em>Phys. Lett. A, </em>247 (6): 397-402</span></span></span>
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李存标
<ol style="padding:0px 40px;color:#333333;font-family:sans-serif, Arial, Verdana, "font-size:13px;white-space:normal;">
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X Y, Lee C B, Chen X, et al. <a data-cke-saved-href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" href="http://links-ms.typeset.io/prod/50a80c7b-1ec9-4b38-827d-44ab0d7a66df/9e90be46-f7f2-4620-a8d8-c973f89c0cbd" target="_blank" style="color:#0782C1;">Structure evolution at early stage of boundary-layer transition: simulation and experiment</a>[J]. <em>Journal of Fluid Mechanics</em>, 2020, 890A11.</span></span></span><br />
<strong><span style="font-family:宋体;"><strong>(该文被选入<span lang="EN-US">SciSpace Newsletter Series)</span></strong></span></strong>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zou T, Lee C. Rotor boundary layer development in a two-stage compressor[J]. <em>Physics of Fluids</em>, 2019, 31(12): 123606.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Jiang X. Flow structures in transitional and turbulent boundary layers[J]. <em>Physics of Fluids</em>, 2019, 31(11): 111301.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jiang X, Lee C. Numerical simulation of K-, N-and O-regime boundary-layer transition at early nonlinear stage[J]. <em>INCAS Bulletin</em>, 2019, 11(3): 77-86.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu <span style="letter-spacing:-0.8pt;">Y, </span>Lee C, Chen X, et al. Newly identified principle for aerodynamic heating in hypersonic flows[J]. <em>Journal of Fluid Mechanics</em>, 2018, 855: 152-180.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia L, Zou T, Zhu Y, et al. Rotor boundary layer development with inlet guide vane (IGV) wake impingement[J]. <em>Physics of Fluids</em>, 2018, 30(4): 040911.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee C, Chen S. Recent progress in the study of transition in the hypersonic boundary layer[J]. <em>National Science Review</em>, 2018, 6(1): 155-170</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Yang L, Shu C, Yang W, et al. An implicit simplified sphere function-based gas kinetic scheme for simulation of 3D incompressible isothermal flows[J]. <em>Computers & Fluids, </em>2018, 160: 204-218.</span></span></span>
</li>
<li style="margin-right:0cm;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Lee C B, Zhao N. Preface to Special Topic: Papers Selected from the 7th <em>International Symposium on Physics of Fluids</em>, Guiyang, China, 2017[J]. 2018.</span></span></span>
</li>
<li value="16" style="margin-top:1.8pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Shu C, Cai Q, Lee C, et al. Proceedings of the Seventh I<em>nternational Symposium on Physics of Fluids </em>(ISPF7) Preface[J]. 2018.</span></span></span>
</li>
<li value="17" style="margin-top:0cm;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, X., Zhu, <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C. B. 2017 Interactions between second mode and low- frequency waves in a hypersonic boundary <span style="letter-spacing:-0.15pt;">layer. </span><em>Journal of Fluid Mechanics</em>. 820: 693-735.</span></span></span>
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<li value="18" style="margin-top:0.2pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Jia, L. C., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Jia, <span style="letter-spacing:-0.8pt;">Y. </span>X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., C. B. Lee 2017, Image-processing method for near-wall PIV measurements around a moving interface. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>28, 035201.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhang, C. H., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen, X., <span style="letter-spacing:-0.3pt;">Yuan, </span>H., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Lee, C.B. and Gad-el-Hak, M. 2015, Transition in hypersonic boundary layers. <em>AIP Advances </em>5,107137</span></span></span>
</li>
<li value="20">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;"><span style="letter-spacing:-0.2pt;">Tang, </span>Q., Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., Chen X., Lee, C. B. 2015, Development of second-mode instability in a Mach 6 flat plate boundary layer with two-dimensional roughness. <em>Phys. Fluids </em>27, 064105.</span></span></span>
</li>
<li value="21" style="margin-top:1.6pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., and Lee, C. B. 2015, Experimental investigations of the initial growth of flow asymmetries over a slender body of revolution at high angles of attack. <em>Phys. Fluids </em>27, 084103.Zhang, C. H., <span style="letter-spacing:-0.2pt;">Tang,</span> Q. & Lee, C. B. 2013, Hypersonic boundary-layer transition on a flared cone. <em>Acta Mech. Sin. </em>29 (1), 48–53.</span></span></span>
</li>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Su, Z., Zhong, H. J., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2013, Experimental investigation of freely falling thin disks. Part 2: Transition of three- dimensional motion from zigzag to spiral. <em>Journal of Fluid Mechanics</em>. 732, 77– 104.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhu, <span style="letter-spacing:-0.8pt;">Y. </span>D., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Zhang, C. H. & Lee, C. B. 2013, Image preprocessing method for near-wall particle image velocimetry (PIV) image interrogation with very large in-plane displacement. <em>Meas. Sci. <span style="letter-spacing:-0.2pt;">Technol. </span></em>24, 125302.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B., Su, Z., Chen, S. <span style="letter-spacing:-0.55pt;">Y., </span>Zhou, M. D. & <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z.2013, Experimental of freely falling thin disks. Part 1: The flow structures and Reynolds number effects on the zigzag motion. <em>Journal of Fluid Mechanics. </em>716, 228–250.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Hong-Jie, Zhong, Cun-Biao. 2012, The wake of falling disks at low reynolds numbers. <em>Acta Mech. Sin., </em>28(2), 367-371.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S.Z., Xu, K. and Lee, C.B. 2012, The dynamic mechanism of a moving Crookes radiometer, <em>Phys. Fluids </em>24, <span style="letter-spacing:-0.15pt;">111701.</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Xu, K., Lee, C. B., Cai, Q. D. 2012, A unified gas kinetic scheme with moving mesh and velocity space adaptation<em>. J. Comput. Phys</em>. 231(20): 6643-6664.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Chen, S. Z., Jin, C. Q., Lee, C. B., Cai, Q. D. 2011, Gas kinetic scheme with discontinuous derivative for low speed flow computation, <em>J. Comput. Phys, </em>230 (5): 2045-2059</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z., Zhou, M. D., Hussain, <span style="letter-spacing:-0.5pt;">F. </span>2011, Experimental studies of surface waves inside a cylindrical container. <em>Journal of Fluid Mechanics. </em>677, 39–62.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Chen, S. <span style="letter-spacing:-0.8pt;">Y. </span>& Lee, C. B. 2011, Experimental study of freely falling thin disks: Transition from planar zigzag to spiral. <em>Phys. Fluids </em>23, 011702.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, M., Lee, C. B. 2010, Frontal instability of lock-exchange gravity currents, <em>Mod. Phys. Lett. B</em>, 24 (13): 1369-1372</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., Lee, C. B. 2009, Paths of freely falling disks. <em>Mod. Phys. Lett. B </em>23 (3), 373–376.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span>Lee, C. B. 2009, Periodic tripling and jet eruption of forced steep gravity waves, <em>Mod. Phys. Lett. B, </em>23 (3): 397-400</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.2pt;">Wu, </span>J. Z. 2008 Transition in wall-bounded flows. <em>Appl. Mech. <span style="letter-spacing:-0.25pt;">Rev. </span></em>61, 030802.</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W.,</span> Li, R. Q., Cheng, S. Z., Lee, C. B.2008, Correlation dimension analysis and capillary wave turbulence in Dragon-Wash phenomena, <em>Chinese Phys. B, </em>17 (2): 637-643</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Li, R. Q. 2007Dominant structure for turbulent production in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>J. of Turbulence., </em>8 (55): 1-34</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">H. <span style="letter-spacing:-0.6pt;">W. </span>Peng, H. <span style="letter-spacing:-0.2pt;">J.Yuan, </span>D. J. <span style="letter-spacing:-0.25pt;">Wang, </span>S. Z. Chen, C. B. Lee 2006, <em>Journal of Hydrodynamics, <span style="letter-spacing:-0.35pt;">Ser. </span>B, </em>18(3), 507-510</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">J. B. Zhu, C. B. Lee 2006, PIV observation of instantaneous velocity structure of lock release gravity currents in the slumping phase, <em>Communications in Nonlinear Science and Numerical Simulation </em>11(2), 262-270</span></span></span>
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<li value="39" style="margin-top:1.6pt;margin-right:0cm;margin-bottom:0.0001pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">C. B. Lee, R. Li, 2006, Recent progress in dynamics of boundary layer transition, <em>Journal of Hydrodynamics, Ser. B</em>, 18(3), 26-30</span></span></span>
</li>
<li value="40" style="margin-top:1.75pt;margin-right:8.35pt;margin-bottom:0.0001pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Zhong, H. J., <span style="letter-spacing:-0.3pt;">Yuan, </span>H. J., Lee, C. B. 2005, Breakup of oil film with holes on quiescent water surface, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1591-1594</span></span></span>
</li>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Peng, H. <span style="letter-spacing:-0.4pt;">W., </span><span style="letter-spacing:-0.25pt;">Wang, </span>D. J., Lee, C. B. 2005, Nonlinear low frequency water waves in a cylindrical shell, <em>Mod. Phys. Lett. B</em>, 19 (28-29): 1615-1618</span></span></span>
</li>
<li value="42" style="margin-right:8.35pt;">
<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2005, Problems in the paper "A link between chaos dynamics and the onset of turbulence in a transitional boundary layer", <em>Acta Phys. Sin. </em>54 (1): 481-482</span></span></span>
</li>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Cai, Q. D., Lee, C. B.2004, Limitation for the energy spectrum analysis for the understanding of the turbulent cascade, <em>Acta Phys. Sin</em>., 53 (9): 3090-3093</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Meng, Q. G., Li, R. Q., Li, C. B. 2004, A link between the turbulent cascade and the dynamics of transition, <em>Acta Phys. Sin.</em>, 53 (8): 2621-2624</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2003, Breakdown of the chain of ring vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics, </em>12 (12): 1429-1434</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Li, R. Q., Lee, C. B. 2002, A link between chaos dynamics and the onset of turbulence in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (8): 1743-1749</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. </span>R., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Meyer, D., Rist, U., Lian, Q. X., Lee, C. B.2002, Late-stage transitional boundary-layer structures. Direct numerical simulation and experiment, <em>Theroet. Comput. Fluid Dyn</em>. 15 (5): 317-337</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Gong, A. L., Li, R. Q., Lee, C. B. 2002, On the generation of low-frequency signals in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin</em>., 51 (5): 1068-1074</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2001, On the formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Exp. Fluids, </em>30 (3): 354-357</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001, On the formation of the streamwise vortex in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Acta Phys. Sin.</em>, 50 (1): 182-184</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B. 2001. On the dynamics in a transitional boundary <span style="letter-spacing:-0.15pt;">layer,</span> <em>Communications in Nonlinear Science and Numerical Simulation</em>, 6(3), <span style="letter-spacing:-0.15pt;">111-171</span></span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.2000 Possible universal transitional scenario in a flat plate boundary layer: Measurement and visualization, <em>Phys. <span style="letter-spacing:-0.25pt;">Rev. </span>E, </em>62 (3): 3659-3670</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S.2000 Formation of the chain of ring-like vortices in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics Letters</em>, 17 (8): 583-585</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Fu, S. 2000 On the breakdown of a long streak in a transitional boundary <span style="letter-spacing:-0.15pt;">layer, </span><em>Chinese Physics</em>, 9 (7): 508-514</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., Hong, Z. X., <span style="letter-spacing:-0.15pt;">Kachanov, </span><span style="letter-spacing:-0.8pt;">Y. </span>S., Borodulin, <span style="letter-spacing:-0.8pt;">V. </span>I., Gaponenko, <span style="letter-spacing:-0.8pt;">V. V. </span>2000 A study in transitional flat plate boundary layers: measurement and visualization, <em>Exp. Fluids</em>, 28 (3): 243-251</span></span></span>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B.1998 New features of CS solitons and the formation of vortices, <em>Phys. Lett. A, </em>247 (6): 397-402</span></span></span>
</li>
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<span style="color:#696969;"><span style="font-size:12px;"><span style="font-family:verdana, geneva, sans-serif;">Lee, C. B., <span style="letter-spacing:-0.25pt;">Wang, </span>S. 1995 Study of the shock motion in a hypersonic shock system/turbulent boundary layer interaction. <em>Exp. Fluids</em>,19(3), 143-149.</span></span></span>
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</ol>
1952
同年,在院系体制改革中,北京大学数学力学系的力学专业建制成立。它是中国第一个力学专业。经过力学前辈们倡导确立了力学专业的办学方向、力学人才的培养模式;培育了强调基础理论、重视实验研究、理论联系实际等优良学风;并开拓了湍流研究等学术方向。
李法新
李法新
李国洋
<p class="MsoNormal">
(†共同一作,<span>*</span>通讯作者):<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Zhang, Z.; <u>Li, G.-Y.</u>*;
Jiang, Y.; Zheng, Y.; Gower, A.L.; Destrade, M.; Cao, Y.*; Noninvasive measurement
of local stress inside soft materials with programmed shear waves, <b>Science Advances</b>,
2023, 9: eadd4082.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <u><span>Li, G.-Y.</span></u>†<span>*</span><span>; Jiang, Y.</span>†<span>; Zheng, Y.; Xu, W.; Zhang, Z.; Cao, Y.</span>*<span>; Arterial
stiffness probed by dynamic ultrasound elastography characterizes waveform of
blood pressure, <b>IEEE Transactions on Medical Imaging</b>, 2022, 41(6):
1510-1519.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <u><span>Li, G.-Y.</span></u><span>; Gower, A.L.; Destrade, M.*; Yun, S.-H.*; Non-destructive mapping
of stress, strain and stiffness of thin elastically deformed materials, <b>Communications
Physics</b>, 2022, 5: 231.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>Feng, X.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Ramier, A.;
Eltony, A.M.; Yun, S.-H.*; In vivo stiffness measurement of epidermis, dermis,
and hypodermis using broadband Rayleigh-wave optical coherence elastography, <b>Acta
Biomaterialia</b>, 2022, 146: 295-305.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <u><span>Li, G.-Y.</span></u>*<span>; Feng, X.; Ramier, A.; Yun, S.-H.</span>*<span>; Supershear
surface waves reveal prestress and anisotropy of soft materials, <b>Journal of
the Mechanics and Physics of Solids</b>, 2022, 169: 105085.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.</span>*<span>; Backward Mach cone of shear waves
induced by a moving force in soft anisotropic materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2020, 138: 103896.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Jiang, Y.-X.; Zhang, Z.; Cao, Y.</span>*<span>; Guided wave elastography of layered soft tissues, <b>Acta
Biomaterialia</b>, 2019, 84: 293-304.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <u><span>Li, G.-Y.</span></u><span>; Xu, G.; Zheng, Y.; Cao, Y.</span>*<span>; Non-leaky
modes and bandgaps of surface acoustic waves in wrinkled
stiff-film/compliant-substrate bilayers, <b>Journal of the Mechanics and
Physics of Solids</b>, 2018, 112: 239-252.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Mangan, R.; Xu, G.; Mo, C.; Luo, J.; Destrade, M.; Cao, Y.*;
Guided waves in pre-stressed hyperelastic plates and tubes: Application to the
ultrasound elastography of thin-walled soft materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2017, 102: 67-79.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.*; Mechanics of ultrasound elastography, <b>Proceedings of
the Royal Society A-Mathematical Physical and Engineering Sciences</b>, 2017,
473(2199): 20160841. (Invited review)</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
11. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Liu, Y.; Destrade, M.; Cao, Y.*; Elastic Cherenkov
effects in transversely isotropic soft materials-I: Theoretical analysis,
simulations and inverse method, <b>Journal of the Mechanics and Physics of
Solids</b>, 2016, 96: 388-410.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
12. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Qian, L.-X.; Geng, H.; Liu, Y.; Yang, X.-Y.; Luo, J.; Cao,
Y.*; Elastic Cherenkov effects in transversely isotropic soft materials-II: Ex
vivo and in vivo experiments, <b>Journal of the Mechanics and Physics of Solids</b>,
2016, 94: 181-190.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
13. <span>Jiang, Y.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Qian, L.-X.</span>†<span>; Hu, X.-D.;
Liu, D.; Liang, S.; Cao, Y.</span>*<span>; Characterization of the nonlinear
elastic properties of soft tissues using the supersonic shear imaging (SSI)
technique: Inverse method, ex vivo and in vivo experiments, <b>Medical Image
Analysis</b>, 2015, 20(1): 97-111.</span>
</p>
李国洋
<p class="MsoNormal">
(†共同一作,<span>*</span>通讯作者):<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Zhang, Z.; <u>Li, G.-Y.</u>*;
Jiang, Y.; Zheng, Y.; Gower, A.L.; Destrade, M.; Cao, Y.*; Noninvasive measurement
of local stress inside soft materials with programmed shear waves, <b>Science Advances</b>,
2023, 9: eadd4082.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2. <u><span>Li, G.-Y.</span></u>†<span>*</span><span>; Jiang, Y.</span>†<span>; Zheng, Y.; Xu, W.; Zhang, Z.; Cao, Y.</span>*<span>; Arterial
stiffness probed by dynamic ultrasound elastography characterizes waveform of
blood pressure, <b>IEEE Transactions on Medical Imaging</b>, 2022, 41(6):
1510-1519.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <u><span>Li, G.-Y.</span></u><span>; Gower, A.L.; Destrade, M.*; Yun, S.-H.*; Non-destructive mapping
of stress, strain and stiffness of thin elastically deformed materials, <b>Communications
Physics</b>, 2022, 5: 231.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <span>Feng, X.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Ramier, A.;
Eltony, A.M.; Yun, S.-H.*; In vivo stiffness measurement of epidermis, dermis,
and hypodermis using broadband Rayleigh-wave optical coherence elastography, <b>Acta
Biomaterialia</b>, 2022, 146: 295-305.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <u><span>Li, G.-Y.</span></u>*<span>; Feng, X.; Ramier, A.; Yun, S.-H.</span>*<span>; Supershear
surface waves reveal prestress and anisotropy of soft materials, <b>Journal of
the Mechanics and Physics of Solids</b>, 2022, 169: 105085.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.</span>*<span>; Backward Mach cone of shear waves
induced by a moving force in soft anisotropic materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2020, 138: 103896.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Jiang, Y.-X.; Zhang, Z.; Cao, Y.</span>*<span>; Guided wave elastography of layered soft tissues, <b>Acta
Biomaterialia</b>, 2019, 84: 293-304.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <u><span>Li, G.-Y.</span></u><span>; Xu, G.; Zheng, Y.; Cao, Y.</span>*<span>; Non-leaky
modes and bandgaps of surface acoustic waves in wrinkled
stiff-film/compliant-substrate bilayers, <b>Journal of the Mechanics and
Physics of Solids</b>, 2018, 112: 239-252.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Mangan, R.; Xu, G.; Mo, C.; Luo, J.; Destrade, M.; Cao, Y.*;
Guided waves in pre-stressed hyperelastic plates and tubes: Application to the
ultrasound elastography of thin-walled soft materials, <b>Journal of the
Mechanics and Physics of Solids</b>, 2017, 102: 67-79.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <u><span>Li, G.-Y.</span></u><span>; Cao, Y.*; Mechanics of ultrasound elastography, <b>Proceedings of
the Royal Society A-Mathematical Physical and Engineering Sciences</b>, 2017,
473(2199): 20160841. (Invited review)</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
11. <u><span>Li, G.-Y.</span></u><span>; Zheng, Y.; Liu, Y.; Destrade, M.; Cao, Y.*; Elastic Cherenkov
effects in transversely isotropic soft materials-I: Theoretical analysis,
simulations and inverse method, <b>Journal of the Mechanics and Physics of
Solids</b>, 2016, 96: 388-410.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
12. <u><span>Li, G.-Y.</span></u><span>; He, Q.; Qian, L.-X.; Geng, H.; Liu, Y.; Yang, X.-Y.; Luo, J.; Cao,
Y.*; Elastic Cherenkov effects in transversely isotropic soft materials-II: Ex
vivo and in vivo experiments, <b>Journal of the Mechanics and Physics of Solids</b>,
2016, 94: 181-190.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
13. <span>Jiang, Y.</span>†<span>; <u>Li, G.-Y.</u></span>†<span>; Qian, L.-X.</span>†<span>; Hu, X.-D.;
Liu, D.; Liang, S.; Cao, Y.</span>*<span>; Characterization of the nonlinear
elastic properties of soft tissues using the supersonic shear imaging (SSI)
technique: Inverse method, ex vivo and in vivo experiments, <b>Medical Image
Analysis</b>, 2015, 20(1): 97-111.</span>
</p>
李宏源
<p class="MsoNormal">
[1] <b>Hongyuan Li</b>; Zexiang Li; Xiangkui Tan; Xiangyu Wang; Shenglin
Huang; Yaolei Xiang; Pengyu Lv*; Huiling Duan*; Three-dimensional backflow at
liquid-gas interface induced by surfactant, <i>Journal
of Fluid Mechanics</i>, 2020, 899: A8.
</p>
<p class="MsoNormal">
[2] <b>Hongyuan Li</b>; SongSong Ji; Xiangkui Tan; Zexiang Li; Yaolei Xiang;
Pengyu Lv*; Huiling Duan*; Effect of Reynolds number on drag reduction in
turbulent boundary layer flow over liquid-gas interface, <i>Physics of Fluids</i>, 2020, 32: 122111.
</p>
<p class="MsoNormal">
[3] <b>Hongyuan Li</b>; Yufan Cao; Xiangyu Wang; Xia Wan; Yaolei Xiang;
Huijing Yuan; Pengyu Lv; Huiling Duan*; Accurate PIV measurement on slip
boundary using single-pixel algorithm, <i>Measurement
Science and Technology</i>, 2022, 33: 055302.
</p>
<p class="MsoNormal">
[4] Yufan Cao; Xiangyu Wang;
Huijing Yuan; Huiling Duan; Zhili Sun;<b> Hongyuan
Li*</b>; Pengyu Lv*; Correlation-based algorithms for accurate PIV measurement
near the slip boundary, <i>Measurement
Science and Technology</i>, 2023, 34: 015302.
</p>
<p class="MsoNormal">
[5] Zeqi Shi; Xiangkui Tan;
Yiwei Wang; Pengyu Lv; Yong Zou; Xia Wan; Kai Lv; Bingzhen Li; Huiling Duan; <b>Hongyuan Li*</b>; Experimental
Investigation of High Speed Cross-Domain Vehicles with Hydrofoil, <i>Journal of Marine Science and Engineering</i>,
2023,11,152.
</p>
<p class="MsoNormal">
[6] Kai Lv; Yongze Liu; Chenxi
You; Yong Zou; Zeqi Shi; Pengyu Lv; Huiling Duan; <b>Hongyuan Li*</b>; Hydrodynamic
investigations of a cross-domain vehicle with the capability of high-speed
cruising on water surface, <i>Ocean Engineering</i>, 2023, 280,114688.
</p>
<p class="MsoNormal">
[7] Yucheng Zou; Chenxi You;
Xiangkui Tan; Yiwei Wang; Jingzhu Wang; Chaohui Li; Ming He; Kai Lv; Yong Zou;
Huaitong Song; Pengyu Lv; <b>Hongyuan Li*</b>; Design and implementation of a
gliding cross-domain vehicle, <i>Ocean Engineering</i>, 2023, 280,114549.
</p>
<p class="MsoNormal">
[8] Yaolei Xiang; Shenglin
Huang; Tian-Yun Huang; Ao Dong; Di Cao; <b>Hongyuan Li</b>; Yahui Xue; Pengyu
Lv; Huiling Duan*; Superrepellency of underwater hierarchical structures on
Salvinia leaf, <i>Proceedings of the
National Academy of Sciences of the United States of America</i>, 2020, 117(5):
2282-2287.
</p>
<p class="MsoNormal">
[9] Zengzhi Du; <b>Hongyuan Li</b>; Yufan Cao; Xia Wan; Yaolei
Xiang; Pengyu Lv; Huiling Duan*; Control of flow separation using biomimetic
shark scales with fixed tilt angles, <i>Experiments
in Fluids</i>, 2022, 63:158.
</p>
<p class="MsoNormal">
[10] Songsong Ji; <b>Hongyuan
Li;</b> Zengzhi Du; Pengyu Lv; Huiling Duan; Influence of interfacial coupled
flow on slip boundary over a microstructured surface. <i>Physical Review Fluids</i>,
2023,8, 054003.
</p>
李家彪
李康康
李启亮
<p class="MsoNormal">
迄今已在<span lang="EN-US">SCI</span>期刊发表论文<span lang="EN-US">180</span>余篇,<span lang="EN-US">H-</span>指数<span lang="EN-US">37.<o:p></o:p></span>
</p>
<p class="MsoNormal">
1. Zhenyi Ye, Yaonian Li, Ruth Jin, Qiliang Li*; Towards
Accurate Odor Identification and Effective Feature Learning With an
AI-Empowered Electronic Nose; IEEE Internet of Things Journal; 2023, 11(3):
4735-4746.<o:p></o:p>
</p>
<p class="MsoNormal">
2. Xiaozhou Huang, Yaonian Li, Erin Witherspoon, Rui He, Greg
Petruncio, Mikell Paige, Matthew Li, Tongchao Liu, Khalil Amine, Zhe Wang,
Qiliang Li*, Pei Dong; Species-Selective Detection of Volatile Organic
Compounds by Ionic Liquid-Based Electrolyte Using Electrochemical Methods; ACS
Sensors, 2023, 8(9): 3389-3399.<o:p></o:p>
</p>
<p class="MsoNormal">
3. Ory Maimon, NA Moser, KJ Liddy, AJ Green, KD Chabak, KP
Cheung, Sujitra Pookpanratana, Qiliang Li*; Measurement and gate-voltage
dependence of channel and series resistances in lateral depletion-mode β-Ga2O3
MOSFETs; Semiconductor Science and Technology, 2023, 38(7): 075016.<o:p></o:p>
</p>
<p class="MsoNormal">
4. Hao Zhu, Yafen Yang, Xinyi Zhu, Parameswari Raju, Dimitris
E Ioannou, Qiliang Li*; Graphene-Integrated Negative Quantum Capacitance
Field-Effect Transistor With Sub-60-mV/dec Switching; IEEE Transactions on
Electron Devices, 2023, 70(9): 4899-4904.<o:p></o:p>
</p>
<p class="MsoNormal">
5. Xiaozhou Huang, Erin Witherspoon, Rui He, Yaonian Li,
Jingjiang Yu, JinghaoHuang Huang, Chao Luo, Matthew Li, Tongchao Liu, Khalil
Amine, Qiliang Li*, Zhe Wang, Pei Dong; Superior Photodynamic Effect of
Single-walled Carbon Nanotubes in Aprotic Media: A Kinetic Study; Materials
Today Energy, 2023, 32: 101242.<o:p></o:p>
</p>
<p class="MsoNormal">
6. Ory Maimon, Qiliang Li*; Progress in Gallium Oxide
Field-Effect Transistors for High-Power and RF Applications; <span style="text-wrap:wrap;">Materials, </span>2023, 16(24): 7693<o:p></o:p>
</p>
<p class="MsoNormal">
7. Min-Yeong Kim, Dong-Wook Byun, Geon-Hee Lee, Sujitra
Pookpanratana, Qiliang Li*, Sang-Mo Koo; Schottky barrier heights and
electronic transport in Ga2O3 Schottky diodes; Materials Research Express,
2023, 10(7): 075902.<o:p></o:p>
</p>
<p class="MsoNormal">
8. Yikun Su, Zhaoyang Wang, Ruoxi Gao, Qifan Wu, Jinlai Zhao,
Guangming Zhu, Qiliang Li, Hongbin Xu, Yiye Pan, Kunming Gu, Chiara Biz, Mauro
Fianchini, Jose Gracia; Ferromagnetic L12-Pt3Co Nanowires with Spin-Polarized
Orbitals for Fast and Selective Oxygen Reduction Electrocatalysis; Advanced
Functional Materials, 2023, 34(9): 2311618.<o:p></o:p>
</p>
<p class="MsoNormal">
9. Zhenyi Ye, Jie Wang, Hao Hua, Xiangdong Zhou, Qiliang Li*;
Precise detection and quantitative prediction of blood glucose level with an
electronic nose system; IEEE Sensors Journal, 2022, 22(13): 12452-12459.<o:p></o:p>
</p>
<p class="MsoNormal">
10. Yafen Yang, Kai Zhang, Yi Gu, Parameswari Raju, Qiliang
Li*, Li Ji, Lin Chen, Dimitris E Ioannou, Qingqing Sun, David Wei Zhang, Hao
Zhu; Steep-slope negative quantum capacitance field-effect transistor; 2022
International Electron Devices Meeting (IEDM), 2022, 22.6. 1-22.6. 4.<o:p></o:p>
</p>
李水乡
李水乡
李兴无
李咏梅
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
<br />
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
1.
宋洁,<b>李咏梅<span>.</span></b><span> </span>“工之道,实为本,新为上——北京大学工学院专业学位教育新工科建设创新实践模式探索”,《北大研究生教育》,<span>2022</span>年首期<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
金红昊,<b>李咏梅</b>,鲍威<span>. </span>“何以失败:新高考改革对理工科新生大学生学业表现的影响”,《高等工程教育研究》<span>2022</span>年第<span>1</span>期,<span>p80-86</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
3. <b>李咏梅</b><span>, </span>周虹<span>, </span>章盛祺<span>. </span>“北京大学工学院新工科个性化人才培养模式探析 <span>– </span>基于学生体验的视角” <span>, </span>《高等工程教育研究》<span>2019</span>年第<span>6</span>期,<span>p24-29.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
4. <b><span>Yongmei Li</span></b><span>, Erxiang Dou. “The
Development of New Engineering Talents with the Support of Information
Technology and Financial Scheme - From the perspective of talent industrial
life chain and based on the experience of the Peking University College of
Engineering”, </span>《<span>2018 WORLD ENGINEERING EDUCATION FORUM –
GLOBAL ENGINEERING DEANS COUNCIL</span>(<span>WEEF-GEDC</span>)》, <span>2018.11. </span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
5. <b>李咏梅、</b>窦尔翔<span>. </span>“高校基金演化的逻辑”,《北京大学教育评论》,<span>2018</span>年<span>4</span>月第<span>16</span>卷,<span>p284-291.</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
6. <b>李咏梅<span>. </span></b><span>“TEF</span>精准扶贫模式探讨<span> – </span>基于北京大学对云南弥渡实施精准扶贫的思考<span>”</span>, 《发展研究》,<span>2017.01</span>(<span>CN35-104 ISSN 1003-0670</span>)<span>, p85-87</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
7. <b>李咏梅<span>.</span></b><span> “</span>论双创人才培养的云机制<span>”</span>,《北大青年研究》,<span>2017</span>年第二期<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
8. <b>李咏梅</b>,周虹,<span> “</span>北京大学工学院产学研探索思考与发展之路<span>”, </span>《高教学刊》<span> 2017</span>年第<span>9</span>期总第<span>57</span>期(<span>ISSN 2096-000X CN 23-1593/G4</span>)<span></span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
9. <b>李咏梅,</b>窦尔翔<span>. “</span>两种技术倒逼教育演化<span>”</span>,《开放学习研究》(<span>ISSN</span>:<span>1008-7648</span>)<span>, 2016</span>年, <span>p26-32</span>
</p>
<p class="MsoListParagraph" style="margin-left:18.0pt;text-indent:-18.0pt;">
10. <b>李咏梅</b><span>, </span>沈楠冰<span>. “</span>工科教育创新之路<span> - </span>北京大学工学院创新创业教育发展模式探索<span>”</span>, 《北大青年研究》<span style="text-indent:-18pt;"></span>
</p>
<p>
<br />
</p>
李泽湘
李启亮
<p class="MsoNormal">
迄今已在<span lang="EN-US">SCI</span>期刊发表论文<span lang="EN-US">180</span>余篇,<span lang="EN-US">H-</span>指数<span lang="EN-US">37.<o:p></o:p></span>
</p>
<p class="MsoNormal">
1. Zhenyi Ye, Yaonian Li, Ruth Jin, Qiliang Li*; Towards
Accurate Odor Identification and Effective Feature Learning With an
AI-Empowered Electronic Nose; IEEE Internet of Things Journal; 2023, 11(3):
4735-4746.<o:p></o:p>
</p>
<p class="MsoNormal">
2. Xiaozhou Huang, Yaonian Li, Erin Witherspoon, Rui He, Greg
Petruncio, Mikell Paige, Matthew Li, Tongchao Liu, Khalil Amine, Zhe Wang,
Qiliang Li*, Pei Dong; Species-Selective Detection of Volatile Organic
Compounds by Ionic Liquid-Based Electrolyte Using Electrochemical Methods; ACS
Sensors, 2023, 8(9): 3389-3399.<o:p></o:p>
</p>
<p class="MsoNormal">
3. Ory Maimon, NA Moser, KJ Liddy, AJ Green, KD Chabak, KP
Cheung, Sujitra Pookpanratana, Qiliang Li*; Measurement and gate-voltage
dependence of channel and series resistances in lateral depletion-mode β-Ga2O3
MOSFETs; Semiconductor Science and Technology, 2023, 38(7): 075016.<o:p></o:p>
</p>
<p class="MsoNormal">
4. Hao Zhu, Yafen Yang, Xinyi Zhu, Parameswari Raju, Dimitris
E Ioannou, Qiliang Li*; Graphene-Integrated Negative Quantum Capacitance
Field-Effect Transistor With Sub-60-mV/dec Switching; IEEE Transactions on
Electron Devices, 2023, 70(9): 4899-4904.<o:p></o:p>
</p>
<p class="MsoNormal">
5. Xiaozhou Huang, Erin Witherspoon, Rui He, Yaonian Li,
Jingjiang Yu, JinghaoHuang Huang, Chao Luo, Matthew Li, Tongchao Liu, Khalil
Amine, Qiliang Li*, Zhe Wang, Pei Dong; Superior Photodynamic Effect of
Single-walled Carbon Nanotubes in Aprotic Media: A Kinetic Study; Materials
Today Energy, 2023, 32: 101242.<o:p></o:p>
</p>
<p class="MsoNormal">
6. Ory Maimon, Qiliang Li*; Progress in Gallium Oxide
Field-Effect Transistors for High-Power and RF Applications; <span style="text-wrap:wrap;">Materials, </span>2023, 16(24): 7693<o:p></o:p>
</p>
<p class="MsoNormal">
7. Min-Yeong Kim, Dong-Wook Byun, Geon-Hee Lee, Sujitra
Pookpanratana, Qiliang Li*, Sang-Mo Koo; Schottky barrier heights and
electronic transport in Ga2O3 Schottky diodes; Materials Research Express,
2023, 10(7): 075902.<o:p></o:p>
</p>
<p class="MsoNormal">
8. Yikun Su, Zhaoyang Wang, Ruoxi Gao, Qifan Wu, Jinlai Zhao,
Guangming Zhu, Qiliang Li, Hongbin Xu, Yiye Pan, Kunming Gu, Chiara Biz, Mauro
Fianchini, Jose Gracia; Ferromagnetic L12-Pt3Co Nanowires with Spin-Polarized
Orbitals for Fast and Selective Oxygen Reduction Electrocatalysis; Advanced
Functional Materials, 2023, 34(9): 2311618.<o:p></o:p>
</p>
<p class="MsoNormal">
9. Zhenyi Ye, Jie Wang, Hao Hua, Xiangdong Zhou, Qiliang Li*;
Precise detection and quantitative prediction of blood glucose level with an
electronic nose system; IEEE Sensors Journal, 2022, 22(13): 12452-12459.<o:p></o:p>
</p>
<p class="MsoNormal">
10. Yafen Yang, Kai Zhang, Yi Gu, Parameswari Raju, Qiliang
Li*, Li Ji, Lin Chen, Dimitris E Ioannou, Qingqing Sun, David Wei Zhang, Hao
Zhu; Steep-slope negative quantum capacitance field-effect transistor; 2022
International Electron Devices Meeting (IEDM), 2022, 22.6. 1-22.6. 4.<o:p></o:p>
</p>
李植
李植
李忠奎
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<a name="OLE_LINK176"></a><a name="OLE_LINK175"></a><a name="OLE_LINK174"></a><a name="OLE_LINK173"></a><a name="OLE_LINK25"></a><a name="OLE_LINK24"></a><span style="font-family:"font-size:14px;">1.
S. Zhang,
Y. Lv, </span><a name="OLE_LINK22"></a><a name="OLE_LINK21"></a><span style="font-family:"font-size:14px;">Z. Li*, An operator-theoretic approach to robust event-triggered control
of network systems with frequency-domain uncertainties, </span><a name="OLE_LINK96"></a><a name="OLE_LINK95"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Automatic Control, </span><a name="OLE_LINK119"></a><a name="OLE_LINK118"></a><span style="font-family:"font-size:14px;">accepted for publication, 2022. (regular
paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">2. Y. Xiong, Z. Li*, Privacy-preserved average
consensus algorithm with edge-based additive perturbations, Automatica, 140: 110223, 2022.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">3. Z. Sun, A. Rantze, Z. Li*, A. Robertsson, </span><a name="OLE_LINK15"></a><a name="OLE_LINK16"></a><span style="font-family:"font-size:14px;">Distributed
adaptive stabilization, Automatica, 129: 109616, 2021. (regular paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">4. Z. Li*, J. Chen, Robust consensus for
multi-agent systems communicating over stochastic uncertain networks, </span><a name="OLE_LINK151"></a><a name="OLE_LINK150"></a><span style="font-family:"font-size:14px;">SIAM
Journal on Control & Optimization, 57(5): 3553- 3570, 2019.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">5. B. Cheng, Z. Li*, Fully distributed
event-triggered protocols for linear multiagent networks, IEEE Transactions on
Automatic Control, 64(4): 1655-1662, 2019. </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">6. Z. Li*, J. Chen, Robust consensus of linear
feedback protocols over uncertain network graphs, IEEE Transactions on
Automatic Control, 62(8): 4251-4258, 2017.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">7. Z. Li*, G. Wen, Z. Duan, W. Ren, Designing
fully distributed consensus protocols for linear multi-agent systems with directed graphs, IEEE
Transactions on Automatic Control, 60(4): 1152-1157, 2015.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">8. Z. Li*, W. Ren, X. Liu, L. Xie, Distributed
consensus of linear multi-agent systems with adaptive dynamic protocols,
Automatica, 49(7): 1986-1995, 2013. (Regular
Paper) </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">9. Z. Li*, W. Ren, X. Liu, M. Fu, Consensus of
multi-agent systems with general linear and Lipschitz nonlinear dynamics using
distributed adaptive protocols, IEEE Transactions on Automatic Control, 58(7):
1786-1791, 2013.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">10. Z. Li*, Z. Duan, G. Chen, L. Huang, </span><a name="OLE_LINK103"></a><a name="OLE_LINK62"></a><a name="OLE_LINK61"></a><span style="font-family:"font-size:14px;">Consensus
of multiagent systems and synchronization of complex networks: A unified
viewpoint, </span><a name="OLE_LINK64"></a><a name="OLE_LINK63"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Circuits and Systems I:
Regular Papers, 57(1</span><a name="OLE_LINK66"></a><a name="OLE_LINK65"></a><span style="font-family:"font-size:14px;">): 213-224, 2010.</span>
</p>
李忠奎
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<a name="OLE_LINK176"></a><a name="OLE_LINK175"></a><a name="OLE_LINK174"></a><a name="OLE_LINK173"></a><a name="OLE_LINK25"></a><a name="OLE_LINK24"></a><span style="font-family:"font-size:14px;">1.
S. Zhang,
Y. Lv, </span><a name="OLE_LINK22"></a><a name="OLE_LINK21"></a><span style="font-family:"font-size:14px;">Z. Li*, An operator-theoretic approach to robust event-triggered control
of network systems with frequency-domain uncertainties, </span><a name="OLE_LINK96"></a><a name="OLE_LINK95"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Automatic Control, </span><a name="OLE_LINK119"></a><a name="OLE_LINK118"></a><span style="font-family:"font-size:14px;">accepted for publication, 2022. (regular
paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">2. Y. Xiong, Z. Li*, Privacy-preserved average
consensus algorithm with edge-based additive perturbations, Automatica, 140: 110223, 2022.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">3. Z. Sun, A. Rantze, Z. Li*, A. Robertsson, </span><a name="OLE_LINK15"></a><a name="OLE_LINK16"></a><span style="font-family:"font-size:14px;">Distributed
adaptive stabilization, Automatica, 129: 109616, 2021. (regular paper)</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">4. Z. Li*, J. Chen, Robust consensus for
multi-agent systems communicating over stochastic uncertain networks, </span><a name="OLE_LINK151"></a><a name="OLE_LINK150"></a><span style="font-family:"font-size:14px;">SIAM
Journal on Control & Optimization, 57(5): 3553- 3570, 2019.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">5. B. Cheng, Z. Li*, Fully distributed
event-triggered protocols for linear multiagent networks, IEEE Transactions on
Automatic Control, 64(4): 1655-1662, 2019. </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">6. Z. Li*, J. Chen, Robust consensus of linear
feedback protocols over uncertain network graphs, IEEE Transactions on
Automatic Control, 62(8): 4251-4258, 2017.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">7. Z. Li*, G. Wen, Z. Duan, W. Ren, Designing
fully distributed consensus protocols for linear multi-agent systems with directed graphs, IEEE
Transactions on Automatic Control, 60(4): 1152-1157, 2015.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">8. Z. Li*, W. Ren, X. Liu, L. Xie, Distributed
consensus of linear multi-agent systems with adaptive dynamic protocols,
Automatica, 49(7): 1986-1995, 2013. (Regular
Paper) </span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">9. Z. Li*, W. Ren, X. Liu, M. Fu, Consensus of
multi-agent systems with general linear and Lipschitz nonlinear dynamics using
distributed adaptive protocols, IEEE Transactions on Automatic Control, 58(7):
1786-1791, 2013.</span>
</p>
<p class="MsoNormal" style="margin-left:35.85pt;text-indent:-18.0pt;">
<span style="font-family:"font-size:14px;">10. Z. Li*, Z. Duan, G. Chen, L. Huang, </span><a name="OLE_LINK103"></a><a name="OLE_LINK62"></a><a name="OLE_LINK61"></a><span style="font-family:"font-size:14px;">Consensus
of multiagent systems and synchronization of complex networks: A unified
viewpoint, </span><a name="OLE_LINK64"></a><a name="OLE_LINK63"></a><span style="font-family:"font-size:14px;">IEEE Transactions on Circuits and Systems I:
Regular Papers, 57(1</span><a name="OLE_LINK66"></a><a name="OLE_LINK65"></a><span style="font-family:"font-size:14px;">): 213-224, 2010.</span>
</p>
1969
为了响应当时“三线建设”规划的需要,北京大学校方于1969年10月将北京大学数学力学系力学专业、技术物理系、无线电系一起迁到陕西汉中地区。
励争
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Jianlin Yi, Zheng Li*, Mehrdad
Negahban, Rongyu Xia, Jueyong Zhu. Asymmetric viscoelastic metamaterials for
broad bandgap design and unidirectional zero reflection. <b>Mechanical Systems and Signal Processing</b>, 162 (2022) 108101</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
Rongyu
Xia, Jueyong Zhu, Jianlin Yi, Shixuan Shao, Zheng Li*. Guided wave propagation
in multilayered periodic piezoelectric plate with a mirror plane. <b>International Journal of Mechanical
Sciences</b>, 204 (2021) 106539
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
3.
M.
Saqib Hameed, Zheng Li* and Kaihong Zheng. Damage Detection Method Based on
Continuous Wavelet Transformation of Lamb Wave Signals. <b>Appl. Sci. </b>2020, 10:<span>8610 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
4.
Rongyu
Xia, Jianlin Yi, Zhong Chen and Zheng Li*. In situ steering of shear horizontal
waves in a plate by a tunable electromechanical resonant elastic metasurface, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): 095302
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
5.
Zhong
Chen, Mehrdad Negahban, Zheng Li*, Jueyong Zhu. Tunable exceptional point and
unidirectional zero reflection of a metabeam using shunted piezos, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): <span>095503</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
6.
M.
Saqib Hameed and Zheng Li*. Transverse Damage Localization and Quantitative
Size Estimation for Composite Laminates Based on Lamb Waves, <b>IEEE Access</b>, 2019, 7(1): 174859-174872
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
7.
Jie Zhou, Zheng Li*. Damage
detection based on vibration for composite sandwich panels with truss core, <b>Composite
Structures</b> 229 (2019) 111376
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
8.
Jianlin Yi, Mehrdad
Negahban, Zheng Li*, Xianyue Su, Rongyu Xia. Conditionally extraordinary transmission
in periodic parity-time symmetric phononic crystals, <b>International Journal of Mechanical Sciences</b> 163 (2019) 105134
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
9.
Zhong
Chen, Shixuan Shao, Mehrdad Negahban and Zheng Li*. Tunable metasurface for
acoustic wave redirection, focusing and source illusion,<b><span>Journal of Physics D: Applied Physics</span></b>,<span>52
(2019) 395503 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
10.
Kaihong
Zheng, Zheng Li*, Zhaoyang Ma, Jianlin Chen, Jie Zhou, Xianyue Su. Damage
detection method based on Lamb waves for stiffened composite panels, <b>Composite Structures</b> 225 (2019) 111137
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
11.
M.
Saqib Hameed, Zheng Li *, Jianlin Chen and Jiahong Qi. Lamb-Wave-Based
Multistage Damage Detection Method Using an Active PZT Sensor Network for Large
Structures, <b>Sensors</b>, 2019, 19: 2010
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
12.
Jie
Zhou, Zheng Li*, Jianlin Chen. Damage identification method based on continuous
wavelet transform and mode shapes for composite laminates with cutouts, <b>Composite Structures</b>, 2018, 191: 12-23.
</p>
励争
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
1. <span>Jianlin Yi, Zheng Li*, Mehrdad
Negahban, Rongyu Xia, Jueyong Zhu. Asymmetric viscoelastic metamaterials for
broad bandgap design and unidirectional zero reflection. <b>Mechanical Systems and Signal Processing</b>, 162 (2022) 108101</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
2.
Rongyu
Xia, Jueyong Zhu, Jianlin Yi, Shixuan Shao, Zheng Li*. Guided wave propagation
in multilayered periodic piezoelectric plate with a mirror plane. <b>International Journal of Mechanical
Sciences</b>, 204 (2021) 106539
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
3.
M.
Saqib Hameed, Zheng Li* and Kaihong Zheng. Damage Detection Method Based on
Continuous Wavelet Transformation of Lamb Wave Signals. <b>Appl. Sci. </b>2020, 10:<span>8610 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
4.
Rongyu
Xia, Jianlin Yi, Zhong Chen and Zheng Li*. In situ steering of shear horizontal
waves in a plate by a tunable electromechanical resonant elastic metasurface, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): 095302
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
5.
Zhong
Chen, Mehrdad Negahban, Zheng Li*, Jueyong Zhu. Tunable exceptional point and
unidirectional zero reflection of a metabeam using shunted piezos, <b>J. Phys. D: Appl. Phys.</b> 2020, 53(9): <span>095503</span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
6.
M.
Saqib Hameed and Zheng Li*. Transverse Damage Localization and Quantitative
Size Estimation for Composite Laminates Based on Lamb Waves, <b>IEEE Access</b>, 2019, 7(1): 174859-174872
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
7.
Jie Zhou, Zheng Li*. Damage
detection based on vibration for composite sandwich panels with truss core, <b>Composite
Structures</b> 229 (2019) 111376
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
8.
Jianlin Yi, Mehrdad
Negahban, Zheng Li*, Xianyue Su, Rongyu Xia. Conditionally extraordinary transmission
in periodic parity-time symmetric phononic crystals, <b>International Journal of Mechanical Sciences</b> 163 (2019) 105134
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
9.
Zhong
Chen, Shixuan Shao, Mehrdad Negahban and Zheng Li*. Tunable metasurface for
acoustic wave redirection, focusing and source illusion,<b><span>Journal of Physics D: Applied Physics</span></b>,<span>52
(2019) 395503 </span>
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
10.
Kaihong
Zheng, Zheng Li*, Zhaoyang Ma, Jianlin Chen, Jie Zhou, Xianyue Su. Damage
detection method based on Lamb waves for stiffened composite panels, <b>Composite Structures</b> 225 (2019) 111137
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
11.
M.
Saqib Hameed, Zheng Li *, Jianlin Chen and Jiahong Qi. Lamb-Wave-Based
Multistage Damage Detection Method Using an Active PZT Sensor Network for Large
Structures, <b>Sensors</b>, 2019, 19: 2010
</p>
<p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;">
12.
Jie
Zhou, Zheng Li*, Jianlin Chen. Damage identification method based on continuous
wavelet transform and mode shapes for composite laminates with cutouts, <b>Composite Structures</b>, 2018, 191: 12-23.
</p>
包为民
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