王前

特聘研究员


北京大学应用物理与技术研究中心特聘研究员/教授/博士生导师


联系电话:010-62755644
电子邮箱:qianwang2@pku.edu.cn
个人主页:http://www2.coe.pku.edu.cn/subpaget.asp?id=542


王前

教育经历


2001年获日本东北大学工学博士学位
1988年获安徽大学理学硕士学位
1985年获西南大学物理学学士学位

研究领域:


稀磁半导体材料的电子结构和磁耦合特性
碳基磁性材料的设计与计算模拟
高能密度材料(HEDM)的模拟与计算
高压下物质的特性
原子团簇的物理化学特性研究及其组装

背景资料:


近年来主要在碳基磁性材料、稀磁半导体材料、高能密度材料、纳米结构及其组装材料等领域开展研究工作。已在SCI刊物上发表论文120余篇, 其中18篇研究论文被选入Virtual Journal of Nanoscale Science & Technology, covering a focused areaof frontier research (http://www.vjnano.org/); 论文他引2400余次;多项研究成果被 Science News, Science Today, Today’s News, innovation report,China National News等科技新闻媒体亮点报道。曾获日本金属学会颁发的优秀研究成果奖;2008年研究业绩为日本东北大学100周年校庆专题报导。自2006年起担任美国能源部(The Office of Basic Energy Sciences)基础能源科学项目的评审专家;自2007起担任亚洲计算材料学术讨论会国际顾问委员会成员,担任长江学者和长江学者成就奖的通讯评审专家;2012年起应邀参加“千青”的评审工作。多次担任国际纳米材料会议的分会执行主席。为Phys. Rev. Lett.,Phys. Rev. B; ACS Nano,Appl. Phys. Lett, 等著名国际刊物审阅了大量的稿件。

在研项目:


1. 主持:“2p电子磁性材料的设计与模拟研究”[自然科学基金面上项目(11174014),2012.01-2015.12]
2. 主持:“超卤素对二维单原子层材料功能化修饰的计算模拟”[自然科学基金面上项目(21273012),2013.01-2014.12]
3. 主持:“高能密度材料的模拟与计算” (中国科学院开放项目,2011.06-2015.05)
4. 参加:“异质界面诱导的新奇量子现象及调控”[国家基金委973项目(2012CB921404)]
目前所授课程:《材料计算科学与工程》,《文科高等数学》

代表性论文:


2011年入职北大以来, 以通讯作者(*)(或第一作者)发表论文情况:

Patterning Graphitic C?N Sheets into a Kagome Lattice for Magnetic Materials.
X.W. Li, J. Zhou, Qian Wang*, Y. Kawazoe, and P. Jena
J. Phys. Chem. Lett.(IP=6.213)4, 259 (2013)
Structure, Stability and Property Modulations of Stoichiometric Graphene Oxide.
S.H. Zhang, J. Zhou,QianWang*, and P. Jena
J. Phys. Chem. C (IP=4.805) (2013)
Structure and properties of Mn4Cl9:Anantiferromagnetic binary hyperhalogen
Y. W. Li, S. H. Zhang,Qian Wang*, and P. Jena
J. Chem. Phys(IP=3.333) 138, 054309 (2013)
Stability and physical properties of tri-ring based porous g-C4N3 sheet
X.W. Li, S.H. Zhang, and Qian Wang*
Phys. Chem. Chem. Phys.(IP=3.573) 15, 7142 (2013)
超卤素的结构、特性及应用研究进展
李亚伟, 王前*
中国科学: 化学 2013年第43卷第2期: 142 ~ 162
Magnetism of triangular nanoflakes with different compositions and edge terminations
Shunhong Zhang, Jian Zhou, Xiaowei Li, and Qian Wang*
J. Nanopart. Res (IP=3.287)14, 1171 (2012)
Magnetism of two-dimensional triangular nanoflake-based kagome lattices.
Xiaowei Li, Jian Zhou, Qian Wang*, Xiaoshuang Chen, Yushiyuki Kawazoe, and Puru Jena
New. J. Phys(IP=4.177) 14, 033043 (2012)
Tunable ferromagnetism in assembled two dimensional triangular graphenenanoflakes.
Xiaowei Li and Qian Wang*
Phys. Chem. Chem. Phys(IP=3.573)14, 2065 (2012)
Magnetic properties of two dimensional silicon carbide triangular nano?akes-based kagome lattices.
Xiaowei Li, Jian Zhou, Qian Wang*, and Puru Jena
J. Nanopart. Res (IP=3.287) 14, 1056 (2012)
Adsorption of oxygen-containing functional groups on free and supported graphene using point contact
Qian Wang*, D. X. Ye, Yushiyuki Kawazoe, and Puru Jena
Phys. Rev. B (IP=3.691)85, 085404 (2012)
Density Functional Theory Study of the Interaction of Hydrogen with Li6C60
Qian Wang, and Puru Jena
J. Phys. Chem. Lett(IP=6.213)3, 1084 (2012)
Ferromagnetism in Two-Dimensional Carbon Chains Linked by 1,3,5 Benzenetriyl Units
Xiaowei Li, Qian Wang*, and Puru Jena,
J. Phys. Chem. C(IP=4.805)115, 19621, (2011)
Effects of charging and doping on orbital hybridizations and distributions in TiO2 clusters
Hong Min Zhao,MiaomiaoWu, Qian Wang*, and Puru Jena
Physica B(IP=0.916)406, 4322 (2011)

自旋电子学材料的研究
Ferromagnetism in Mn-doped GaNnanowires
Q. Wang, et al., Phys. Rev. Lett. 95, 167202 (2005)
Anti-ferromagnetic Coupling Driven by Bond Length Contraction Near GaMnN FilmSurface
Q. Wang, et al., Phys. Rev. Lett. 93, 155501 (2004)
Ferromagnetic GaN-Cr Nanowires
Q. Wang, et al., Nano Letters5, 1587 (2005)
Mg-doped GaN nanostructures: Energetics, magnetism, and H2 adsorption
Q. Wang, et al., Appl. Phys. Lett.94, 013108 (2009)
First-principles study of magnetic properties in V-doped ZnO
Q. Wang, et al., Appl. Phys. Lett.91, 063116 (2007)
Magnetic Coupling Between Cr Atoms Doped at Bulk and Surface Sites of ZnO
Q. Wang, et al., Appl. Phys. Lett.87, 162509 (2005)
First-principles study of magnetism in (11-20) Zn1-xMnxO thin film
Q. Wang, et al., Appl. Phys. Lett. 84, 4170 (2004)
Magnetism in ZnO nanowire with Fe/Co co-doping: First principles density functional calculations
S. Ghosh, Q. Wang, G. P.Das, and P. Jena, Phys. Rev. B 81, 235215 (2010)
Magnetic properties of transition-metal-doped Zn1-xTxO ( T=Cr, Mn, Fe, Co, and Ni) thin films with and without intrinsic defects: A density functional study
Q. Wang, et al., Phys. Rev. B79, 115407 (2009)
Vacancy-induced magnetism in ZnO thin films and nanowires
Q. Wang, et al., Phys. Rev. B 77, 205411 (2008)
Ferromagnetic to ferrimagnetic crossover in Cr-doped GaNnanohole arrays
Q. Wang, et al., Phys. Rev. B 75, 075312 (2007)?
Ab Initio Study of Electronic and Magnetic Properties of the C-codoped Ga1-xMnxN(10-10) Surface
Q. Wang, et al., Phys. Rev. B 75, 035322 (2007)
Clustering of Cr in GaN Nanotubes and the Onset of Ferrimagnetic Order
Q. Wang, et al., Phys. Rev. B 73, 115411 (2006)
Ferromagnetism in Al1-xCrxN Thin Films by Density Functional Calculations
Q. Wang, et al., Phys. Rev. B 73, 115411 (2006)
Ab Initio Study of Ferromagnetism in Ga1-xCrxN Thin Film
Q. Wang, et al., Phys. Rev. B72, 045435 (2005)
Carrier-mediated Ferromagnetism in N Co-doped (Zn, Mn)O (10-10) Thin Film
Q. Wang, et al., Phys. Rev. B 70, 052408 (2004)
Magnetism and Energetics of Mn-doped ZnO (10-10) Thin Film
Q. Wang, et al., Phys. Rev. B 69, 233310 (2004)
First Principles Study of Ferromagnetic Coupling in Zn1-xCrxTe Thin Film
Q. Wang, et al., J. Appl. Phys 97 (2005) 043904
N-doped ZnO thin films and nanowires: energetics, impurity distribution and magnetism
Q. Wang, et al., New Journal of Physics 11, 063035 (2009)
First-principles study of the effect of vacancies on magnetic properties? ofZn1-xCoxO thin films
Q. Wang, et al., J. Phys. Condens. Matter. 12, 076002(2010)

原子团簇与组装材料
Tuning magnetic properties of Mn4 cluster with gold coating
Q. Wang, et al.,PhysChemPhysChem12, 1493(2010)
Probing the existence of energetically degenerate cluster isomers by chemical tagging
Q. Wang, Appl. Phys. Lett. 97, 223104 (2010)
Superhalogen properties of CuFn clusters
Q. Wang, et al., J. Chem. Phys. 131, 124301 (2009) http://www.people.vcu.edu/~qwang/_pdfs/09_JCP-CuF.pdf
Stabilizing a 22 karat nanogolden cage
Q. Wang, et al., J. Chem. Phys. 131, 204501 (2009)
Theoretical Study of Hydrogen Storage in Ca-Coated Fullerenes
Q. Wang, et al., J. Chem. Theory Comput. 5(2), 374 (2009)
Potential of AlN Nanostructures as Hydrogen Storage Materials
Q. Wang,et al., ACS NANO 3, 621 (2009)
Ligand induced ferromagnetism in ZnO nanostructures
Q. Wang, et al., J. Chem. Phys. 129, 164714 (2008)
Nitrogen-induced magnetic transition in small chromium clusters
Q. Wang, et al.,J. Chem. Phys. 119, 7124 (2003)
First Principles studies of La doped B36N36 cage
Q. Wang, et al.,Physica B 339, 105 (2003)
Structure and Stability of Magic Ar6Fe+Cluster
Q. Wang,et al., Mater. Trans. JIM, 42, 2601(2001)
Nonmetal-Metal Transition in Barium Cluster
Q. Wang, et al., SolidState Communication 117, 635 (2001)
Capacitance of Magic Barium Cluster Nanomaterials
Q. Wang, et al., Scripta Mater 44, 1959(2001)
Structures of magic Ba clusters and magic Ba suboxide clusters
Q. Wang, et al., Phys. Rev. A 62, 063203(2000)
First-Principles Studies on Magnetism of Ni Clusters Coated and Alloyed with Pd
Q. Wang, et al., Phys. Lett. A 267, 394 (2000)
Geometry and Electronic Structures of Magic Iron Oxide Cluster
Q. Wang, et al., Phys. Rev. B 59, 12672 (1999)