个人简介
博士(维也纳大学),教授,博士生导师,入选湖南省“芙蓉学者奖励计划”(青年),新·葡萄88805“潇湘学者”特聘教授。研究方向为计算凝聚态物理。目前已在物理类主流学术刊物发表论文50余篇,其中,1篇Nature Physics,6篇Nature Communications, 3篇Nano Letters。主持/承担国家自然科学基金项目4项;担任全国固体物理研究会理事,湖南省量子科技学会常务理事,物质微结构与功能湖南省重点实验室副主任,Frontiers of Physics青年编委,“计算凝聚态物理”湖南省研究生优秀教学团队负责人,新·葡萄88805“固体物理与材料”教学团队负责人。
办公室:理学院623-2
E-mail:mxchen@hunnu.edu.cn
研究方向
1. 固体电子结构相关的理论与计算方法,自主发展了能带反折叠方法和相关计算程序KPROJ (https://github.com/mxchen-2020/kproj)
2. 凝聚态物质的电子性质(包括固体电子结构、磁、拓扑、铁电以及热电输运等性质)的第一性原理计算
教学情况
1. 本科生课程:《固体物理》(新·葡萄88805线下“一流”课程)
2. 研究生课程:《固体理论》、《固体电子结构》
科研项目
1. 国家自然科学基金面上项目“基于二维ABP2X6层状材料异质结界面的铁电和电子性质及调控研究”(12174098,主持,2022-2025)
2. 国家自然科学基金区域创新发展联合基金重点项目“新型二维原子晶体异质结可控制备与光电功能集成”(U19A2090,负责子课题,2020-2023)
3. 国家自然科学基金重大研究计划集成项目“面向能源的新型光电材料光电转换过程的核心共性机理研究”(91833302,研究骨干,2019-2021)
4. 国家自然科学基金面上项目”铁硒体系中的掺杂和界面效应及计算方法研究”(11774084,主持,2018-2021)
5. 湖南省教育厅重点项目” 过渡金属硫族化合物单层结构的能谷调控研究”(18A003,主持,2018-2021)
获奖情况
1. 湖南省“芙蓉学者奖励计划”(2019年,青年学者)
2. 湖南省教学成果三等奖(2022年,排名第六)
3. 新·葡萄88805教学成果二等奖(2022年,排名第一)
近期发表的部分研究论文
1. Zhouxiaosong Zeng#, Zhiqiang Tian#, Yufan Wang#, Cuihuan Ge#, Fabian Strauß, Kai Braun, Patrick Michel, Lanyu Huang, Guixian Liu, Dong Li, Marcus Scheele,Mingxing Chen*, Anlian Pan*, and Xiao Wang*, Dual polarization-enabled ultrafast bulk photovoltaic response in van der Waals heterostructures,Nat. Commun. 15,5355 (2024).
2. Ying Chen# , Huawei Liu# , Guoliang Yu# , Chao Ma # , Zheyuan Xu, Jinding Zhang, Cheng Zhang,Mingxing Chen, Dong Li, Weihao Zheng, Ziyu Luo, Xin Yang, Kaihui Li, Chengdong Yao, Danliang Zhang, Boyi Xu, Jiali Yi, Chen Yi, Bo Li, Hongmei Zhang, Zucheng Zhang, Xiaoli Zhu, Siyu Li, Shula Chen* , Ying Jiang* , Anlian Pan* , Defect Engineering of 2D Semiconductors for Dual Control of Emission and Carrier Polarity, Adv. Mater. 36, 2312425, (2024).
3. Tao Li, Yongyi Wu, Guoliang Yu, Shengxian Li, Yifeng Ren, Yadong Liu, Jiarui Liu, Hao Feng, Yu Deng,Mingxing Chen*, Zhenyu Zhang*, and Tai Min*, Realization of sextuple polarization states and interstate switching in antiferroelectric CuInP2S6, Nat.Commun. 15, 2653 (2024).
4. Zhiqiang Tian, Ziming Zhu, Jiang Zeng, Chao-Fei Liu, Yurong Yang, Anlian Pan, andMingxing Chen*, Ferroelectrically tunable topological phase transition in In2Se3thin films, Phys. Rev. B 109, 085432 (2024).
5. Yongheng Ge, Ziming Zhu, Zeying Zhang, Yi Shen, Weikang Wu,Mingxing Chen, Cong Xiao, and Shengyuan A. Yang, Magnetic eightfold nodal-point and nodal-network fermions in MnB2, Phys. Rev. B 109, 115119 (2024).
6. Zhiqiang Tian, Jin-Yang Li, Tao Ouyang, Chao-Fei Liu, Ziran Liu*, Si Li*, Anlian Pan, andMingxing Chen*, Doping induced multiferroicity and quantum anomalous Hall effect in α-In2Se3thin films, Appl. Phys. Lett. 124, 043101 (2024).
7. Zhunyun Tang, Xiaoxia Wang, Jin Li, Chaoyu He,Mingxing Chen, Chao Tang*, and Tao Ouyang*,Strong four-phonon effects and anomalous thermal transport behavior in the monolayer group-IVB transition metal dichalcogenides MX2( M = Ti , Zr , Hf ; X = S , Se ), Phys. Rev. B 108, 214304 (2023).
8. Yi Shen, Yahui Jin, Yongheng Ge,Mingxing Chen, and Ziming Zhu*,Chiral topological metals with multiple types of quasiparticle fermions and large spin Hall effect in the SrGePt family materials, Phys. Rev. B 108, 035428 (2023).
9. Chunfeng Cui, Yuwen Zhang, Tao Ouyang*, Chao Tang*, Chaoyu He, Jin Li,Mingxing Chen, Jianxing Zhong*,Machine learning interatomic potentials as efficient tools for obtaining reasonable phonon dispersions and accurate thermal conductivity: A case study of typical two-dimensional materials, Appl. Phys. Lett. 123, 152201 (2023).
10. Xingyue Ma,Mingxing Chen, Jun-Ming Liu, Di Wu, and Yurong Yang*,Universal inverse electrocaloric effect in perovskites, Phys. Rev. B 107, 184105 (2023).
11. Yuwen Zhang, Chunfeng Cui, Chaoyu He*, Tao Ouyang*, Jin Li,Mingxing Chen, Chao Tang*,Vertical ferroelectricity in van der Waals materials: Models and devices,Appl. Phys. Lett. 123, 142901 (2023).
12. Guoliang Yu , Chuhan Tang, Zhiqiang Tian, Ziming Zhu, Peitao Liu, Anlian Pan,Mingxing Chen*,and Xing-Qiu Chen, Ferroelectrically switchable magnetic multistates in MnBi2Te4(Bi2Te3)nand MnSb2Te4(Sb2Te3)n(n = 0,1) thin films, Phys. Rev. B 108, 014106 (2023).
13. Chunfeng Cui, Yuwen Zhang, Tao Ouyang*,Mingxing Chen, Chao Tang*, Qiao Chen, Chaoyu He, Jin Li, and Jianxin Zhong,On-the-fly machine learning potential accelerated accurate prediction of lattice thermal conductivity of metastable silicon crystals, Phys. Rev. Mater. 7, 033803 (2023).
14. Zhunyun Tang, Xiaoxia Wang, Jin Li, Chaoyu He,Mingxing Chen, Xinghua Li, Chao Tang*, Tao Ouyang*,Low lattice thermal conductivity of two-dimensional monolayers of BxN (x = 2, 3, and 5) induced by complex bonding networks: A comparative study with h-BN,Appl. Phys. Lett. 123, 102201 (2023).
15. Yuwen Zhang, Chunfeng Cui, Tao Ouyang*, Chaoyu He, Jin Li,Mingxing Chen,Chao Tang*,Thermal switch based on ferroelasticity VA-N binary compounds, Appl. Phys. Lett. 122, 182204 (2023).
16. Xin-Yue Kang, Chunmei Zhang,Mingxing Chen*, and Si Li*, Two-dimensional hourglass Weyl nodal loop in monolayer Pb(ClO2)2and Sr(ClO2)2, New J. Phys. 24, 113044 (2022).
17. Controlled Growth of Two-Dimensional Heterostructures: In-Plane Epitaxy or Vertical Stack Jieyuan Liang, Xiaoli Zhu,Mingxing Chen, Xidong Duan, Dong Li*, and Anlian Pan*, Acc. Mater. Res. 3, 999–1010 (2022).
18. Lei Wang, Yongpeng Shi, Mingfeng Liu, Ao Zhang, Yi-Lun Hong, Ronghan Li, Qiang Gao,Mingxing Chen*, Wencai Ren, Hui-Ming Cheng, Yiyi Li, and Xing-Qiu Chen*, Intercalated architecture of MA2Z4family layered van der Waals materials with emerging topological, magnetic and superconducting properties, Nat.Commun. 12, 2361 (2021).
19.Mingxing Chen*, Feng Liu, Prediction of giant and ideal Rashba-type splitting in ordered alloy monolayers grown on a polar surface, Natl. Sci. Rev. 8, nwaa241 (2021).
20. Guoliang Yu, Anlian Pan,Mingxing Chen*, Interface engineering of ferroelectricity in thin films of thiophosphate ABP2X6 (A = Cu, Ag; B = In, Bi, Cr, V; X = S, Se), Phys. Rev. B 104,224102 (2021).
21. Ao Zhang, Kaike Yang, Yun Zhang, Anlian Pan, andMingxing Chen*, Electrically switchable valley polarization, spin/valley filter, and valve effects in transition-metal dichalcogenide monolayers interfaced with two-dimensional ferromagnetic semiconductors, Phys. Rev. B(Letter)104, L201403 (2021).
22. Xiao Xuan Mei,Mingxing Chen*, and Hai Li*, Magnetotransport in magnetic junctions based on tilted Weyl semimetals, J. Appl. Phys. 130, 203901 (2021).
23. Fang Li#,Mingxing Chen# (equal contribution), Yajuan Wang, Xiaoli Zhu*, Xuehong Zhang, Zixing Zou, Danliang Zhang, Jiali Yi, Ziwei Li, Dong Li*, and Anlian Pan*, Strain-controlled synthesis of ultrathin hexagonal GaTe/MoS2 heterostructure for sensitive photodetection, iScience 24, 103031 (2021).
24.陈明星,双层转角石墨烯结构的构建方法浅析,大学物理8, 8 (2021).
25. S. Shabani, D. Halbertal, W. Wu,Mingxing Chen, S. Liu, James Hone, Wang Yao, D. N. Basov, Xiaoyang Zhu and Abhay N. Pasupathy, Deep moiré potentials in twisted transition metal dichalcogenide bilayers. Nat. Phys. 17, 720 (2021).
26. Jing Wu, Yue-E Xie,Ming-Xing Chen, Jia-Ren Yuan, Xiao-Hong Yan, Sheng-Bai Zhang, and Yuan-Ping Chen, Bilayer twisting as a mean to isolate connected flat bands in a kagome lattice through Wigner crystallization, Chin. Phys. B, 30, 077104 (2021).
27. Ao Zhang, Zisheng Gong, Ziming Zhu*, Anlian Pan, andMingxing Chen*, Effects of the substrate-surface reconstruction and orientation on the spin valley polarization in MoTe2/EuO, Phys. Rev. B 102, 155413 (2020).
28. Chunyan Liao, Yahui Jin, Wei Zhang, Ziming Zhu*, andMingxing Chen*, Fe2Ga2S5as a 2D Antiferromagnetic Semiconductor, Chin. Phys. Lett. 37, 107505 (2020).
29. Ri He, Peiheng Jiang, Yi Lu, Yidao Song,Mingxing Chen, Mingliang Jin, Lingling Shui, Zhicheng Zhong, Polarity induced electronic and atomic reconstruction at NdNiO2/SrTiO3interfaces, Phys. Rev. B 102, 035118 (2020).
30. Danliang Zhang, Ying Liu, Mai He, Ao Zhang, Shula Chen, Qingjun Tong, Lanyu Huang, Zhiyuan Zhou, Weihao Zheng,Mingxing Chen, Kai Braun, Alfred J. Meixner, Xiao Wang, Anlian Pan, Room temperature near unity spin polarization in 2D Van der Waals heterostructures, Nature Communications 11, 4442 (2020).
31. J. Han, Ao Zhang,Mingxing Chen, Wang Gao, Qing Jiang, Giant Rashba splitting in one-dimensional atomic tellurium chains, Nanoscale 12, 10277 (2020).
32. Hongyi Yu,Mingxing Chen, Wang Yao, Giant magnetic field from moire induced Berry phase in homobilayer semiconductors, National Science Review 7, 12 (2020).
33. Qingjun Tong,Mingxing Chen, Wang Yao, Magnetic proximity effect in van der Waals moire superlattice, Phys. Rev. Applied12, 024031 (2019).
34. Wenhan Zhou, Shiying Guo, Shengli Zhang, Zhen Zhu, Shengyuan A. Yang,Mingxing Chen, Bo Cai, Hengze Qu, and Haibo Zeng, Unusual Electronic Transitions in Two-dimensional Layered SnSb2Te4Driven by Electronic State Rehybridization, Phys. Rev. Applied11, 064045 (2019).
35. Huisheng Zhang, Wei Qin,Mingxing Chen, Ping Cui, Zhenyu Zhang, Xiaohong Xu, Converting a two-dimensional ferromagnetic insulator into a high-temperature quantum anomalous Hall system by means of an appropriate surface modification, Phys. Rev. B99, 165410 (2019).
36. Si-Yu Li, Ya-Ning Ren, Yi-Wen Liu,Mingxing Chen, Hua Jiang, Lin He, Nanoscale detection of valley-dependent spin splitting around atomic defects of graphene, 2D Mater.6, 031005 (2019).
37. Y. Y. Li,Mingxing Chen, M. Weinert, L. Li, One-dimensional metallic edge states of oxygen-terminated zigzag graphene edges, 2D Mater.6,025038 (2019).
38.Mingxing Chen* and M. Weinert, Layer k-projection and unfolding electronic bands at interfaces, Phys. Rev. B98, 245421 (2018).
39. Wenhan Zhang,Mingxing Chen, Jixia Dai, Xueyun Wang, Zhicheng Zhong, Sang-WookCheong and Weida Wu, Topological Phase Transition with Nanoscale Inhomogeneity in (Bi1-xInx)2Se3,Nano Lett.18, 2677 (2018).
40. Ping Li, Xiao Li, Wei Zhao, Hua Chen,Ming-Xing Chen, Zhi-Xin Guo, Ji Feng, Xin-Gao Gong, Allan H. MacDonald, Topological Dirac States beyond π-Orbitals for Silicene on SiC(0001) Surface, Nano Lett.17, 6195 (2018).
41. Tao Ouyang, Qingyi Liu,Mingxing Chen, Chao Tang, Jin Li, Chunxiao Zhang, Chaoyu He, Hua Bao*, Jianxin Zhong, and Ming Hu*, Doping Induced Abnormal Contraction and Significant Reduction of Lattice Thermal Conductivity of Open Framework Si24, ES Energy & Environment 3, 88 (2018).
42.M. X. Chen*,W. Chen, Zhenyu Zhang and M. Weinert, Effects of magnetic dopants in (Li0.8M0.2OH)FeSe (M = Fe, Mn, Co): Density functional theory study using a band unfolding technique, Phys. Rev. B96, 245111 (2017).