Job title: Professor, doctoral supervisor; Winner of the National Outstanding Youth Fund and selected of the National Young Talent Project
Contact number:
Department: Condensed Matter Physics
E-mail: ccliu@bit.edu.cn
Address: School of Physics, Beijing Institute of Technology Zip Code 100081

He is engaged in computational physics and condensed matter theory research. The electronic structure of real materials is studied by first principles calculation methods and theoretical methods such as Green function, Wannier function, tight bound approximation and efficient model, focusing on various novel quantum states caused by the non-trivial topology of the wave function of the system, such as topologically insulated states, topologically semi-metallic states and topologically superconducting states. And the corner electronics of 2D materials represented by magic Angle graphene.

2010.9 -- 2013.6 Institute of Physics, Chinese Academy of Sciences, Condensed Matter Physics, Doctor of Theoretical Physics
2003.9-2010.4 Xidian University, School of Technical Physics, Bachelor, Master

2019.8 -- Professor and Doctoral Supervisor, School of Physics, Beijing Institute of Technology
2017.1 -- 2019.8 Associate Professor (New System), PhD Supervisor, School of Physics, Beijing Institute of Technology 2016.8-2016.12 School of Physics, Beijing Institute of Technology, Associate Professor
2015.1 -- 2016.1 Visiting Scholar, University of Texas at Dallas, USA
2013.8 -- 2016.7 School of Physics, Beijing Institute of Technology, Lecturer

1. Shifeng Qian, Yongpan Li, and Cheng-Cheng Liu*, Stable higher-order topological Dirac semimetals with Z2 monopole charge in alternating-twist multilayer graphene and beyond, Phys. Rev. B 108, L241406 (2023).
2. Yu-Xuan Li, and Cheng-Cheng Liu*, Majorana corner modes and tunable patterns in an altermagnet heterostructure, Phys. Rev. B 108, 205410 (2023).
3. Botao Fu, Run-Wu Zhang*, Xiaotong Fan, Si Li, Da-Shuai Ma, and Cheng-Cheng Liu*, 2D Ladder Polyborane: An Ideal Dirac Semimetal with a Multi-Field-Tunable Band Gap, ACS Nano 17, 1638-1645 (2023).
4. Pantelis Bampoulis, Carolien Castenmiller, Dennis J. Klaassen, Jelle van Mil, Yichen Liu, Cheng-Cheng Liu, Yugui Yao, Motohiko Ezawa, Alexander N. Rudenko, and Harold J. W. Zandvliet*, Quantum Spin Hall States and Topological Phase Transition in Germanene, Phys. Rev. Lett. 130, 196401 (2023)
5. Shi-Feng Qian, Gui-Bin Liu, Cheng-Cheng Liu*, and Yugui Yao, Cn-symmetric higher-order topological crystalline insulators in atomically thin transition-metal dichalcogenides, Phys. Rev. B 105, 045417 (2022). SCI引用36次
6. Run-Wu Zhang#, Zeying Zhang#, Cheng-Cheng Liu*, Yugui Yao*，Nodal Line Spin-gapless Semimetals and High-quality Candidate Materials, Phys. Rev. Lett. 124, 016402 (2020). SCI引用46次
7. Cheng-Cheng Liu#, Li-Da Zhang#, Wei-Qiang Chen, and Fan Yang*, Chiral Spin Density Wave and d+id Superconductivity in the Magic-Angle-Twisted Bilayer Graphene, Phys. Rev. Lett. 121, 217001 (2018). SCI引用230余次
8. Cheng-Cheng Liu, Jin-Jian Zhou, Yugui Yao*, and Fan Zhang*, Weak Topological Insulators and Composite Weyl Semimetals: β-Bi4X4 (X=Br, I), Phys. Rev. Lett. 116, 066801 (2016). SCI引用70余次
9. Cheng-Cheng Liu, Wanxiang Feng and Yugui Yao*, Quantum Spin Hall Effect in Silicene and Two-Dimensional Germanium, Phys. Rev. Lett. 107, 076802 (2011). SCI引用1980余次
10. Cheng-Cheng Liu, Hua Jiang* and Yugui Yao*, Low-energy effective Hamiltonian involving spin-orbit coupling in silicene and two-dimensional germanium and tin, Phys. Rev. B 84, 195430 (2011). SCI引用1040余次
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