竇文杰(西湖大學理學院特聘研究員)

2013在中國科學技術大學取得物理學學士學位。

2018年在賓夕法尼亞大學(University of Pennsylvania)取得化學博士學位，方向為理論計算化學。之後在加州大學伯克利分校(University of California, Berkeley)從事博士後研究。

於2021年1月加入西湖大學開展獨立研究工作，組建理論計算化學實驗室。

竇文杰博士主要從事激發態電子結構(excited-state electronic structure theory)和多體非絕熱動力學(many-body nonadiabatic dynamics)理論研究工作。在博士期間，與合作者發展了表面躍遷 (surface hopping) 和電子阻尼 (electronic friction) 的理論計算方法研究界面非絕熱動力學反應，能夠高效精確計算固體表面的化學反應、化學吸附、非均相催化、半導體中的電子能量轉移、電子學器件中非平衡態電子輸運等複雜物理化學過程。博士後研究期間，從事大尺度激發態電子結構計算理論的研究，發展完善了隨機軌(stochastic orbitals)與多體微擾格林函式(many-body perturbation theory, e.g. GW, second-order Green’s function)相結合的方法，能夠高效計算大尺度多電子體系激發態特徵。

1. Z. Jin,W. Dou, J.E. Subotnik. “Configuration interaction approaches for solving quantum impurity models”J. Chem. Phys.152, 064105 (2020)

　　2.W. Dou, J.E. Subotnik. “Non-Adiabatic Molecular Dynamics at Metal surfaces”J. Phys. Chem. A124, 751(2020)

　　3.W. Dou, T.Y. Takeshita, M. Chen, R. Baer, D. Neuhauser, E. Rabani. “Stochastic Resolution of Identity for Real-Time Second-Order Green’s Function: Ionization Potential and Quasi-particle Spectrum”J. Chem. Theory Comput.15, 6703 (2019)

　　4. T.Y. Takeshita,W. Dou, D.G.A. Smith, W.A. de Jong, R. Baer, D. Neuhauser, E. Rabani. “Stochastic resolution of identity second-order Matsubara Green’s function theory”J. Chem. Phys.151, 044114 (2019)

　　5.W. Dou, J. E. Subotnik. “Perspective: How to understand electronic friction”J. Chem. Phys.148,230901 (2018)

　　6.W. Dou, M.A. Ochoa, A. Nitzan, J. E. Subotnik. “Universal approach to quantum thermodynamics in the strong coupling regime”Phys. Rev. B98, 134306 (2018)

　　7.W. Dou, C. Schinabeck, M. Thoss, J. E. Subotnik. “A broadened classical master equation approach for treating electron-nuclear coupling in non-equilibrium transport”J. Chem. Phys.148, 102317 (2018)

　　8.W. Dou, J. E. Subotnik. “Universality of electronic friction: The equivalence of the Head-Gordon--Tully model and von-Oppen's NEGF approach at equilibrium”Phys. Rev. B96, 104305 (2017)

　　9.W. Dou, G. Miao, J. E. Subotnik. “Born-Oppenheimer Dynamics, Electronic Friction, and the Inclusion of Electron-Electron Interactions”Phys. Rev. Lett.119, 046001 (2017)

　　10.W. Dou, J. E. Subotnik. “A generalized surface hopping algorithm to model non-adiabatic dynamics near metal surfaces: The case of multiple electronic orbitals”J. Chem. Theory Comput.13, 2430 (2017)

　　11.W. Dou, J. E. Subotnik. “A many-body states picture of electronic friction: The case of multiple orbitals and multiple electronic states”J. Chem. Phys.145, 054102 (2016)

　　12.W. Dou, J. E. Subotnik. “A broadened classical master equation approach for nonadiabatic dynamics at metal surfaces: Beyond the weak molecule-metal coupling limit”J. Chem. Phys.144, 024116 (2016)

　　13.W. Dou, A. Nitzan, J. E. Subotnik. “Frictional effects near a metal surface”J. Chem. Phys.143, 054103 (2015)

　　14.W. Dou, A. Nitzan, J. E. Subotnik. “Surface hopping with a manifold of electronic states. II. Application to the many-body Anderson-Holstein model”J. Chem. Phys.142, 084110 (2015)

課題組圍繞複雜體系激發態動力學開展理論研究工作：（1）分子與光子強耦合的化學動力學及（光腔中）非線性超快光譜; （2）量子材料中的激子動力學和量子干涉調控; （3）非均相界面的ab initio非絕熱動力學與電化學; （4）量子計算與量子動力學。