谢文辉

1993年9月-1997年7月  兰州大学  学士

1997年9月-2002年7月  兰州大学  博士

2002年7月-2004年7月  中国科学院物理所凝聚态理论与计算实验室，北京

2004年8月-2007年8月  Max-Plank Institute for Solid State Research，Stuttgart, Germany

2007年起                      华东师范大学物理与电子科学学院   副教授

2013年3月-2013年7月  加拿大McGill大学物理系访问学者

谢文辉长期在量子材料和器件等领域研究，在兰州大学磁学与磁性材料教育部重点实验室获得博士学位，随后到北京中科院物理所和德国马普固体物理研究所做博士后，2007年到华东师范大学纳光电集成与先进装备教育部工程研究中心任职。2008年内获得了上海市青年科技启明星人才计划（A类）的资助，在国家自然科学基金和上海市科委基金的支持下，面向国家在电子和能源领域的需求，围绕电子材料和器件开展研究。在过去的科研工作中，致力于解释新颖实验现象，挖掘性能优良的自旋电子学材料，目前围绕人工智能在物理和材料领域的应用进行科研。

We investigate the physics and materials using the first-principles calculations and the atomistic simulation methods coupled with high-performance computing. In particular, we focus on the application of artificial intelligence to physics and materials. Our main tools are Density Functional Theory (DFT) based high throughput computing integrated with machine learning techniques such as DNN.

We take DFT calculation, called as the Electronic Structure Calculations (ESC), as the cornerstone of all research work, with multi-scale computational simulation research, further computationally designing innovative electronic devices and technologies broadly spanning materials and molecules in solids, surfaces and interfaces. We focus on the advanced materials for spintronics, energy applications, heterogeneous catalysis or novel architectures: (i) Search for novel materials for potential technological applications. (ii) Simulation of novel materials and devices. (iii) Understanding the related physics and chemistry, in particular the electronic correlations in these materials. 

Our research group always focused on understanding the mechanism of novel quantum phenomenon, and reactions of surface physics and chemistry, which is used to predict emerging spintronics or green chemistry, for developing advanced functional devices and sustainable energy technologies, including following fields：

1. Artificial intelligence application: Application in physics and chemistry, as well as electronic devices.

2. Surface and interface of devices: nanoscale material related to surface and interface, simulation of catalysis. 

3. Emerging quantum materials：the understanding of quantum materials,  the play of different degree.

承担物理和电子科学学院的研究生和本科生的骨干课程教学。主讲《固体物理》、《计算物理》、《材料物性的模拟和计算》、《固体的能带理论和电子性质》《高等固体物理》等课程。

主持和参与多项国家自然科学基金和省部级的重点和面上基金项目:

国家自然科学基金青年项目：用NMTO方法研究强关联电子系统的物性

国家自然科学基金面上项目：钙钛矿氧化物异质结中原子无序对磁电性能的影响

上海市科委科技重点项目（参与）：可控表面囚禁分子阵列的量子信息操控

上海市科委科技项目：运用第一原理方法研究和探索钙钛矿半金属复合材料

上海市科委科技项目：二维半导体材料与器件的界面物性及输运性质研究

1.W. H. Xie, Y. Q. Xu, B. G. Liu and D. G. Pettifor, Physical Review Letters91, 037204 (2003), Half-metallic ferromagnetism and structural stability of zincblende phases of the transition-metal chalcogenides. 

2.W. H. Xie and B. G. Liu, Journal of Physics-condensed Matter15, 5085 (2003), Half-metallic ferromagnetism in vanadium chalcogenides. 

3.W. H. Xie, Y. Q. Xu, B. G. Liu and D. G. Pettifor, Physical Review B68,134407 (2003), Half-metallic ferromagnetism in transition metal pnictides and chalcogenides with wurtzite structure. 

4.W. H. Xie, B. G. Liu, Journal of Applied Physics96, 3559 (2004), Half-metallic ferromagnetism in ternary transition-metal compounds based on ZnTe and CdTe semiconductors.

5.Y. H. Zhao, W. H. Xie, L. F. Zhu, B. G. Liu,Journal of Physics-condensed Matter18, 10259 (2006),Half-metallic ferromagnets based on the rock-salt IV-VI semiconductor GeTe. 

6.W. H. Xie, O. Jepsen, O. K. Andersen, Y. L. Chen and Z-X Shen, Physical Review Letters98，047001 (2007),Insights from ARPES for an undoped, four-layered, two-gap high-Tcsuperconductor. 

7.J. S. Kim, W. H. Xie, R. K. Kremer, O. Jepsen and A. Simon, Physical Review B, 76, 014516 (2007), Strong electron-phonon coupling in the rare-earth carbide superconductor La₂C₃. (Online Link; Citation：2)

8.O. P. Sushkov, W. H. Xie, O. Jepsen, O. K. Andersen, G. A. Sawatzky,Physical Review B77, 035124 (2008), Anisotropies in insulating La_2-xSr_xCuO₄: angular resolved photoemission and optical absorption. 

9.W. H. Xie, Mingli Bao, Zhenjie Zhao, Bang-Gui Liu, Physical Review B79, 115128 (2009),First-principles investigation of effect of pressure on BaFe₂As₂.

10.Fu Zheng, Xuan Wang, Xu Li, Jianmin Bai, Dan Wei, Xiaoxi Liu, Wenhui Xie, and Fulin We, J. Appl. Phys.109, 07B509 (2011), High Frequency Characteristics of FeCoAlO Thin Films Combined the Effects of Stress and Magnetic Field

11.Min Zhu, Yong Lin, Edward W. C. Lo, Qiong Wang, Zhengjie Zhao, and Wenhui Xie, Appl. Phys. Lett.100, 062406 (2012), Electronic and magnetic properties of La2NiMnO6 and La2CoMnO6 with cationic ordering

12.Xiaofeng Wang, Sumei Huang and Wenhui Xie, J. Appl. Phys.112, 023701 (2012) Crystal structure and electronic structure of quaternary semiconductors Cu$_2$ZnTiSe$_4$ and Cu$_2$ZnTiS$_4$ for solar cell absorber

13.Juan Huang, Wenhui Xie and Xiaohong Li,Journal of Magnetism and Magnetic Materials, 364, 1 (2014)The stability, magnetism and electronic structure of Fe15TMN2 and Fe14TM2N2 (TM=Cr, Mn, Co, and Ni)

14.H. J. Mao, Y. F. Wei, Hong, Gui, Z. J. Zhao and W. H. Xie, J. Appl. Phys. 115, 213910 (2014) First-principle investigations of K2NiF4-type double perovskite oxides La4B′B″O8 (B′B″ = Fe, Co, Ni)

15.Wei, Yingfen; Gui, Hong; Li, Xin; Zhao, Zhenjie; Zhao, Yong-Hong; Xie, Wenhui; JOURNAL OF PHYSICS-CONDENSED MATTER 27 206001 (2015) The effect of hydrogen ordering on the electronic and magnetic properties of the strontium vanadium oxyhydride

16.Gui, Hong; Li, Xin; Lv Wenxing; Zhao, Zhenjie; Xie, Wenhui; JOURNAL OF ELECTRONIC MATERIALS 45, 4843-4846 (2015) Structural and Electronic Properties of Sr2CoO2Cl2

17.Gui, Hong; Wei, Yinfen, Mao Hejie, Li, Xin; Zhao, Zhenjie; Xie, Wenhui; EPL 110, 37006 (2015) Magnetic and optical anisotropy in the infinite-chains iron oxide Sr2FeO3: A first-principle investigation

18.Gui, Hong; Li, Xin; Zhao, Zhenjie; Xie, Wenhui;JOURNAL OF PHYSICS D-APPLIED PHYSICS 49, 055303（2016）Pressure-induced structural and magnetic transitions in the infinite-chains iron oxide Sr2FeO3: a first-principle investigation

19.Han, Y; Li, X; Lv, WX; Xie, WH; Zhao, Q; Zhao, ZJ; JOURNAL OF ALLOYS AND COMPOUNDS 678, 494-498 (2016) Magnetoimpedance effect of FINEMET ribbons coated with Fe20Ni80 permalloy film

20.Wang, Ze-Lian; Xie, Wen-Hui; Zhao, Yong-Hong; FRONTIERS OF PHYSICS 12 127103 (2017) Tunable band structure and effective mass of disordered chalcopyrite

21.Wang, Busheng; Lu, Qing; Ge, Yanfeng; Zhang, Kaicheng; Xie, Wenhui; Liu, Wu-Ming; Liu, Yong; Physical Review B, 96 134116 (2017) Magnetic diversity in stable and metastable structures of CrAs

22.Pan, Huiyan; Li, Junrui; Lu, Jiqing; Wang, Guimei; Xie, Wenhui; Wu, Peng; Li, Xiaohong; JOURNAL OF CATALYSIS 354, 24-36 (2017) Selective hydrogenation of cinnamaldehyde with PtFex/Al2O3@SBA-15 catalyst: Enhancement in activity and selectivity to unsaturated alcohol by Pt-FeOx and Pt-Al2O3@SBA-15 interaction

23.Pan, H. L; Li, X; Zhang, Q; Wang, JT; Xie, WH; Zhao, ZJ; JOURNAL OF PHYSICS D-APPLIED PHYSICS 50 305002 (2017) Dipole-dipole interaction in electronic article surveillance system

24.Guo, Lingxia; Shi, Yuchen; Liu, Xiangfei; Han, Zhitao; Zhao, Zhenjie; Chen, Yong; Xie, Wenhui; Li, Xin; BIOSENSORS & BIOELECTRONICS 99, 368 (2018) Enhanced fluorescence detection of proteins using ZnO nanowires integrated inside microfluidic chips

25.Xie, WJ; Zhou, JP; Huang, SM; Ou-Yang, W; Xie, WH; Sun, Z; Chen, XH；ORGANIC ELECTRONICS，VOL.59, IS., P.272-278 (2018) Plasmon-enhanced perovskite solar cells using ultra-thin LiF spacer isolating AgAl and Au composite nanoparticles from metal electrode

26.Yu Li, Qianqian Wang, Wenhui Xie and Yifeng Yang, Physical Review B, 100, 085132 (2019) Nearly degenerate p(x) + ip(y) and dx2-y2 pairing symmetry in the heavy fermion superconductor YbRh2Si2

27.Hu, Xiao; Zhang, Yaqiong; Fan, Shuaiyu; Li, Xin; Zhao, Zhenjie; He, Chao; Zhao, Yonghong; Liu, Yong; Xie, Wenhui; Journal of Physics-condensed Matter, 32 205901 (2020) Searching high spin polarization ferromagnet in Heusler alloy via machine learning

上海市青年科技启明星人才计划

2017年优秀研究生教学奖