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LIU Chang
Associate Professor
0755-88018221
liuc@sustech.edu.cn

Brief Introduction
LIU Chang, Associate Professor at the Department of Physics, SUSTech. Dr. Liu's research mainly focuses on revealing the novel electronic properties of functional materials such as magnetic materials, topological materials, thermoelectric materials, etc., using angle resolved photoemission spectroscopy (ARPES), scanning tunneling microscopy (STM) and other spectroscopic techniques. His research group also masters the techniques of material growth such as the flux method, chamical vapor transfer (CVT) and molecular beam epitaxy (MBE). On the field of topologically non-trivial materials, his works presented e.g. a gapless topological surface state in magnetic topological insulators and an exotic surface state in three dimensional Dirac semimetals. On the field of thermoelectric materials, his works revealed the valence band information on a series of SnSe-based high-performance thermoelectric compounds.


Research Interests
1. The technique of angle resolved photoemission spectroscopy (ARPES) and ultrahigh vacuum;
2. Electronic properties of iron-based high temperature superconductors;
3. Exotic electronic behavior in topological insulators and topologically nontrivial materials;
4. Electronic properties of graphene and related structures.


Professional Experiences
2015-Present : Associate Professor, Department of Physics, SUSTC
2014-2015: Assistant Professor, Department of Physics, SUSTC
2011-2014: Postdoctoral Research Associate, Princeton University (USA)


Educational Background
2006-2011: PhD in Condensed Matter Physics, Iowa State University (USA)
2003-2006: BS in Department of Physics, Sun Yat-sen University (China)
2001-2003: Department of Urban Planning, Sun Yat-sen University (China)


Selected Publications

1. Xiang-Rui Liu*, Hanbin Deng*, Yuntian Liu* et al., Spectroscopic signature of obstructed surface states in SrIn2P2. Nat. Commun. 14, 2905 (2023).

2. Xiao-Ming Ma*, Yufei Zhao*, Ke Zhang*, Shiv Kumar* et al., Realization of a tunable surface Dirac gap in Sb-doped MnBi2Te4. Phys. Rev. B 103, L121112 (2021) (编辑推荐文章).

3. Yu-Jie Hao*, Pengfei Liu*, Yue Feng* et al., Gapless surface Dirac cone in antiferromagnetic topological insulator MnBi2Te4. Phys. Rev. X 9, 041038 (2019) (Physics 精选报道).

4. Wenke He et al., High thermoelectric performance in low-cost SnS0.91Se0.09 crystals. Science 365, 1418 (2019).

5. Qiangsheng Lu et al., Unexpected large hole effective masses in SnSe revealed by angle-resolved photoemission spectroscopy. Phys. Rev. Lett. 119, 116401 (2017).