Title: Associate Professor, Doctoral Supervisor
Contact number:
Department: Computational Physics
E-mail: jjzhou at bit dot edu dot cn
Address: A213, Liangxiang South Campus, Beijing Institute of Technology

He is mainly engaged in the theoretical calculation research of electron ultrafast dynamics and electron transport processes in materials, as well as the development of related first-principle calculation methods and high-performance computing software. His main research interests include the following three aspects:
(1) Transport properties and mechanisms of charge, spin, and phonon.
(2) ultrafast kinetic processes of electrons and excited states in materials.
(3) Cutting-edge first-principles computing methods and software development.

2009-2015, Institute of Physics, Chinese Academy of Sciences, PhD
2005-2009, School of Computer Science, Wuhan University, BA

2021.01-now, Associate Professor, "Special Young Scholar", School of Physics, Beijing Institute of Technology, selected as a national high-level young talent project.
2015-2020.12, California Institute of Technology [Caltech], Department of Applied Physics and Materials Science, Postdoc

So far, he has published more than 20 papers in important international academic journals such as Physical Review Letters and Nano Letters, and the papers have been cited more than 1400 times. He was invited to give an invited presentation at the APS March Meeting. We independently developed Perturbo, a high-performance parallel computing package for electroacoustic coupling, electron transport and ultrafast dynamics, which is used by hundreds of research groups around the world.
The main representative papers are as follows (co-first author marked #, corresponding author marked *) :
(1)J.-J. Zhou#, J. Park#, I. Timrov, A. Floris, M. Cococcioni, N. Marzari, M. Bernardi*, Ab Initio Electron-Phonon Interactions in Correlated Electron Systems. Physical Review Letters; 127,126404 (2021)
(2)J.-J. Zhou*, J. Park, I.-T. Lu, I. Maliyov, X. Tong, M. Bernardi*, Perturbo: a software package for ab initio electron-phonon interactions, charge transport and ultrafast dynamics, Computer Physics Communications. 107970 (2021).
(3) V.Halani #, J.- J.Houz #, J. Parker, C.Dreyer, and M. Bernardi*, Piezoelectric Electron-Phonon Interaction from Ab Initio Dynamical Quadrupoles: Impact on Charge Transport in Wurtzite GaN, Physical Review Letters, 125, 136602 (2020)
(4)J.-J. Zhou, and M. Bernardi*, Predicting charge transport in the presence of polarons: The beyond-quasiparticle regime in SrTiO3. Physical Review Research, 1, 033138 (2019).
(5)J.-J. Zhou, O. Hellman, and M. Bernardi*, Electron-Phonon Scattering in the Presence of Soft Modes and Electron Mobility in SrTiO3 Perovskite from First Principles, Physical Review Letters; 121, 226603 (2018)
(6)V. Jhalani#, J.-J. Zhou#, and M. Bernardi*, Ultrafast hot carrier dynamics in GaN and its impact on the efficiency droop, Nano Letters, 17, 5012-5019 (2017)
(7)J.-J. Zhou, and M. Bernardi*, Ab initio Electron Mobility and Polar Phonon Scattering in GaAs, Physical Review B Rapid communication, 94, 201201 (2016)
(8)J.-J. Zhou, W. Feng, G.-B. Liu, and Y.G. Yao*, Topological edge states in single- and multi-layer Bi4Br4, New Journal of Physics, 17, 015004 (2015).
(9)J.-J. Zhou, W. Feng, C.-C. Liu, S. Guan, and Y. G. Yao*, Large-Gap Quantum Spin Hall Insulator in Single Layer Bismuth Monobromide Bi4Br4, Nano Letters; 14, 4767–4771 (2014)