李志强，男，理学博士，教授，博士生导师。

1998-2002北京大学，学士

2002-2008美国加州大学圣地亚哥分校，博士

2008-2011美国哥伦比亚大学，博士后

2011-2015美国国家强磁场实验室，研究教授

2015至今 四川大学物理学院，教授

PhD(2008), University of California, San Diego, USA

2008—2011 Postdoctoral Researcher, Columbia University, USA

2011—2015 Research Faculty, National High Magnetic Field Lab, USA

低维量子物理、纳米光子学、实验凝聚态物理。发表SCI论文50余篇,包括Nature Physics 2篇，Nature Nanotechnology1篇，Nature Communications2篇，Science Advances 2篇, Physical Review Letters 8篇, Nano Letters5篇等。

用多种光学实验技术研究低维量子物理与纳米光子学，研究对象主要包括石墨烯、新型二维量子材料，拓扑绝缘体等，研究着重于对这些体系的多体相互作用、拓扑序等新奇物理的理解，进而实现新的量子器件功能。受邀在美国哈佛大学、麻省理工学院、哥伦比亚大学、美国劳伦斯伯克利国家实验室、加拿大多伦多大学等世界28所大学、研究机构和国际学术会议（包括APS March meeting）做邀请报告40余次。

Low-dimensional quantum systems, quantum nanophotonics, experimental condensed matter physics. Optical and electronic properties of low-dimensional systems and topological materials, such as graphene and other novel 2D materials, topological insulators, etc.

1: Zhen-Bing Dai, Hua Fan, Vyacheslav Semenenko, Xinyu Lv, Lu Wen, Zhen Zhang, Shijie Fang, Vasili Perebeinos, Yue Zhao, Zhiqiang Li, “Gradient polaritonic surface with space-variant switchable light-matter interactions in 2D moiré superlattices”. Science Advances 10, eadq7445 (2024).

2: Lu Wen, Xinyu Lv, Zhiqiang Li, “Local optical conductivity of strain solitons in bilayer graphene with arbitrary soliton angle”. Phys. Rev. B 110, 235402 (2024).

3: Xinyu Lv, Lu Wen, Zhenbing Dai, Guoyu Luo, Zhiqiang Li, “Tuning polaritons in van der Waals moiré superlattices with interlayer spacing”. Appl. Phys. Lett. 121, 053101 (2022).

4: Zhen-Bing Dai, Yan He, Zhiqiang Li, “Effects of heterostrain and lattice relaxation on the optical conductivity of twisted bilayer graphene”. Phys. Rev. B 104, 045403 (2021).

5:Ying Wang,Guoyu Luo,Junwei Liu,R. Sankar,Nan-Lin Wang,Fangcheng Chou,Liang Fu,Zhiqiang Li, “Observation of ultrahigh mobility surface states in a topological crystalline insulator by infrared spectroscopy”, Nature Communications 8, 366 (2017).

6:Xiao-Xiao Zhang, Ting Cao, Zhengguang Lu, Yu-Chuan Lin, Fan Zhang, Ying Wang, Zhiqiang Li, James C. Hone, Joshua A. Robinson, Dmitry Smirnov, Steven G. Louie & Tony F. Heinz, “Magnetic brightening and control of dark excitons in monolayer WSe₂”, Nature Nanotechnology 12, 883 (2017).

7:Xiang Yuan, Peihong Cheng, Longqiang Zhang, Cheng Zhang, Junyong Wang, Yanwen Liu, Qingqing Sun, Peng Zhou, David Wei Zhang, Zhigao Hu, Xiangang Wan, Hugen Yan, Zhiqiang Li, and Faxian Xiu, “Direct Observation of Landau Level Resonance and Mass Generation in Dirac Semimetal Cd₃As₂Thin Films” Nano Lett. 17, 2211 (2017).

8: Sanfeng Wu, Lei Wang, You Lai, Wen-Yu Shan, Grant Aivazian, Xian Zhang, Takashi Taniguchi, Kenji Watanabe, Di Xiao, Cory Dean, James Hone, Zhiqiang Li, Xiaodong Xu, “Multiple Hot-Carrier Collection in Photo-Excited Graphene Moire Superlattices”,Science Advances 2, e1600002 (2016).

9: Zhi-Guo Chen, Zhiwen Shi, Wei Yang, Xiaobo Lu, You Lai, Hugen Yan, Feng Wang, Guangyu Zhang and Zhiqiang Li, “Observation of an intrinsic bandgap and Landau level renormalization in graphene/boron-nitride heterostructures”, Nature Communications 5, 4461 (2014).

10: Zhiqiang Li, Chun Hung Lui, Emmanuele Cappelluti, Lara Benfatto, Kin Fai Mak, G. Larry Carr, Jie Shan, and Tony F. Heinz, "Structure-dependent Fano resonances in the infrared spectra of phonons in few-layer graphene", Phys. Rev. Lett. 108, 156801 (2012).

11: Chun Hung Lui, Zhiqiang Li, Kin Fai Mak, Emmanuele Cappelluti & Tony F. Heinz, "Observation of an electrically tunable band gap in trilayer graphene", Nature Physics 7, 944 (2011).

12: Z.Q. Li, E.A. Henriksen, Z. Jiang, Z. Hao, M.C. Martin, P. Kim, H.L. Stormer, and D.N. Basov, "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", Phys. Rev. Lett. 102, 037403 (2009).

13: Z.Q. Li, E.A. Henriksen, Z. Jiang, Z. Hao, M.C. Martin, P. Kim, H.L. Stormer, and D.N. Basov, "Dirac charge dynamics in graphene by infrared spectroscopy", Nature Physics 4, 532 (2008).

14: Z.Q. Li, V. Podzorov, N. Sai, M.C. Martin, M.E. Gershenson, M. Di Ventra and D.N. Basov, "Light Quasiparticles Dominate Electronic Transport in Molecular Crystal Field-Effect Transistors", Phys. Rev. Lett. 99, 016403 (2007).

一、研究生招生专业方向：凝聚态物理

二、招生要求：就读物理专业，对实验凝聚态物理、低维量子物理、纳米光子学、量子调控等方向感兴趣，有相关经历更好。

三、本科生科研指导：课题组每年接收在读本科生若干名，参与低维量子物理、纳米光子学、量子调控等方向的科研项目。