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王前

(北京大學應用物理與技術研究中心教授、博導)

鎖定
王前,女,工學博士 [1] 北京大學應用物理與技術研究中心特聘研究員教授博士生導師 [1] 
中文名
王前
外文名
Wang Qian
國    籍
中國
畢業院校
西南大學安徽大學東北大學
主要成就
獲日本金屬學會頒發的優秀研究成果獎
在SCI刊物上發表論文120餘篇
論文他引2400餘次
職    稱
教授

目錄

  1. 1 教育經歷
  2. 2 學術兼職
  3. 3 科研概況
  1. 綜述
  2. 研究領域
  3. 在研項目
  4. 4 科研成果
  1. 5 講授課程
  2. 6 代表性論文

王前教育經歷

2001年,獲日本東北大學工學博士學位
1988年,獲安徽大學理學碩士學位
1985年,獲西南大學物理學學士學位

王前學術兼職

自2006年起擔任美國能源部(The Office of Basic Energy Sciences)基礎能源科學項目的評審專家;
自2007起擔任亞洲計算材料學術討論會國際顧問委員會成員;
2012年起應邀參加“千青”的評審工作。
多次擔任國際納米材料會議的分會執行主席。 [1] 

王前科研概況

王前綜述

主要從事碳基磁性材料稀磁半導體材料、高能密度材料和納米結構及其組裝材料的計算模擬研究工作。 [1] 

王前研究領域

稀磁半導體材料的電子結構和磁耦合特性
碳基磁性材料的設計與計算模擬
高能密度材料(HEDM)的模擬與計算
高壓下物質的特性
原子團簇的物理化學特性研究及其組裝 [1] 

王前在研項目

1. 主持:“2p電子磁性材料的設計與模擬研究”[自然科學基金面上項目(11174014),2012.01-2015.12]
2. 主持:“超鹵素對二維單原子層材料功能化修飾的計算模擬[自然科學基金面上項目(21273012),2013.01-2014.12]
3. 主持:“高能密度材料的模擬與計算” (中國科學院開放項目,2011.06-2015.05)
4. 參加:“異質界面誘導的新奇量子現象及調控”[國家基金委973項目(2012CB921404)] [1] 

王前科研成果

已在SCI刊物上發表論文120餘篇, 其中18篇研究論文被選入Virtual Journal of Nanoscale Science & Technology, covering a focused areaof frontier research;論文他引2400餘次;多項研究成果被Science News, Science Today, Today’s News, innovation report,China National News等科技新聞媒體亮點報道;
為Phys. Rev. Lett.,Phys. Rev. B;ACS Nano,Appl. Phys. Lett,等著名國際刊物審閲了大量的稿件;
曾獲日本金屬學會頒發的優秀研究成果獎;
2008年研究業績為日本東北大學100週年校慶專題報導。 [1] 

王前講授課程

《材料計算科學與工程》,《文科高等數學 [1] 

王前代表性論文

2011年入職北大以來
2011年入職北大以來, 以通訊作者(*)(或第一作者)發表論文情況:
  • 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)
  • 超鹵素的結構、特性及應用研究進展  李亞偉, 王前*  中國科學: 化學 2013年第43卷第2期: 142 ~ 162 [2] 
  • 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) [1] 
自旋電子學材料的研究
  • 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) [1] 
原子團簇與組裝材料
  • 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)
  • 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) [3] 
  • 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., SolidStateCommunication 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) [1] 
參考資料