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周光辉教授

发布时间:2015-07-26, 12:54 PM      作者:未知

人物简介

周光辉 男,1956年7月出生于湖南,理学博士;主要从事介观纳米体系与低维量子结构物理研究;20多年来承担本科生《固体物理》和研究生《固体理论》、《介观物理》及《纳米电子学》等课程的教学和研究生培养工作,其中《固体理论》10多年来岳麓山下近邻大学物理及材料专业研究生有50多人次傍听;至今已培养指导8名博士生和17名硕士生毕业,现指导在读博士和硕士研究生各3名。
    1981年底湖南师范学院(现湖南师范大学)毕业获学士学位后留校任教;1985.9-88.2单位公派到加拿大Simon Fraser大学物理系做访问学者和读研究生获M.Sc学位,主要从事金属氧化物固体薄膜的实验研究,回国后继续进行过一段时间固体薄膜实验研究工作,后因受条件等因素的限制于90年代末期开始转向凝聚态物理及纳米电子学与分子电子学理论方面的研究至今;1992年晋升副教授,1996年晋升教授,1999年在内蒙古大学理论物理专业(在职)获博士学位;曾访问意大利ICTP、瑞典Chalmers University of  Technology、新加坡国立大学与南洋理工大学和香港科技大学。
    曾负责/参加多项国家自然科学基金、科技部国际合作项目和教育部博士学科点基金及湖南省自然科学基金项目的研究,共在Phys. Rev. B、Appl. Phys. Lett./J. Appl. Phys.、J. Chem. Phys.、J. Phys. Chem. B/C、J. Phys.: Conden. Matt.、Carbon、Nanotechnology等专业领域国际主流期刊上发表相关研究论文70余篇,据Web of Science有记载共被他引780 多次(其中约2/3为国际引用,单篇他引最高68次),近几年来共有18篇论文入选APS虚拟刊物Nanoscale Science & Technology;现为Phys. Rev. B、Appl. Phys. Lett./J. Appl. Phys.、J. Phys.: Conden. Matt.、ACS nano、Nanotechnology等国际重要学术期刊审稿人和美国国家自然科学基金(NSF)通讯评审人。

学术贡献

1. 介观纳米体系与低维量子结构物理 (including structures of

    quantum wells, wires and  dots based on semiconductor 

    heterojunction, graphene and graphene-like materials 2DEG as well

    as topological insulators)

2. 纳米/分子(自旋/光)电子器件原理与设计(including electronic

    structure and transport property of nano- and organic molecular

    electron devices by first- principles calculation using softwares of

    VASP, ATK, MS... )

代表作品

40. Xiongwen Chen, Zhengang Shi, Baoju Chen, Kehui Song and Guanghui Zhou*, Electron transport channels and their manipulation by impurity in armchair-edge graphene nanoribbons, Carbon 72, 365 (2014).

39. Xiaoying Zhou, Yiman Liu, Ma Zhou, Huaihua Shao and Guanghui Zhou*, Fully valley- and spin-polarized magnetocapacitance in n-type monolayer MoS2, Applied Physics Express 7, 021201 (2014).

38. Xiaoying Zhou, Genhua Liu, Fang Cheng, Yuan Li and Guanghui Zhou*, Magnetically confined states and transport property on the surface of a topological insulator, Annals of Physics 347, 32 (2014).

37. Yuan Li*, Mansoor B. A. Jalil, S. G. Tan, W. Zhao, R. Bai & G. H. Zhou, Chiral tunneling modulated by a time-periodic potential on the surface tates of a topological insulator, Scientific Reports 4, 4624 (2014).

36. Xianbo Xiao*, Zhaoxia Chen, Wenjie Nie, Guanghui Zhou and Fei Li, Rashba-Zeeman-effect induced spin filtering energy windows in a quantum wire, Journal of Applied Physics 115, 223709 (2014).

35. Benliang Zhou, Benhu Zhou, Dongsheng Tang and Guanghui Zhou*, Controllable fully spin- olarized transport in a ferromagnetically doped topological insulator junction, Journal of Applied Physics 115, 154310 (2014).

34. Benhu Zhou*, Benliang Zhou, Yangsu Zeng, Guanghui Zhou* and Tao Ouyang, Seebeck effects in a graphene nanoribbon coupled to two ferromagnetic leads, Journal of Applied Physics 115, 114305 (2014).

33. Junji Guo, Wenhu Liao*, Heping Zhao and Guanghui Zhou, Electrically controlled spin polarization and selection in a topological insulator sandwiched between ferromagnetic electrodes, Journal of Applied Physics 115, 023709 (2014).

32. Benhu Zhou*, Benliang Zhou, Yangsu Zeng, Aihua Zeng and Guanghui Zhou, Thermoelectric figure of merit in a quantum wire coupled to a graphene sheet between ferromagnetic leads, European Physical Journal B 87, 97 (2014).

31. X.B. Xiao*, Z.X. Chen, Z.F. Liu, H.L. Li, W.J. Nie, C.Q. Zhang and G.H. Zhou, Spin-filtering and charge- and spin-switching effects in a quantum wire with periodically attached stubs, European Physical Journal B 87, 6 (2014).

30. Kai-He Ding* and Guanghui Zhou, Time-dependent electron transport in HgTe/CdT equantum wells, Physics Letters A 378, 966 (2014).

29. Huahu Ying, Wu-Xing Zhou, Ke-Qiu Chen* and Guanghui Zhou, Negative differential resistance induced by the Jahn–Teller effect in single molecular coulomb blockade devices, Computational Materials Science 82, 33 (2014).

28. Haiqing Wan, Benhu Zhou, Wenhu Liao, and Guanghui Zhou*, Spin-filtering and rectification effects in a Z-shaped boron nitride nanoribbon junction, Journal of Chemical Physics 138, 034705 (2013).

27. Yongli Huang, Zengsheng Ma, Xi Zhang, Guanghui Zhou, Yichun Zhou and Chang Q. Sun*, Hydrogen Bond Asymmetric Local Potentials in Compressed Ice, Journal of Physical Chemistry B 117, 13639 (2013).

26. Benhu Zhou*, Benliang Zhou, Aihua Zeng, Guanghui Zhou* and Fu-Bin Yang, Thermoelectric transport for a quantum wire side-coupled to a graphene sheet between ferromagnetic leads, Journal of Applied Physics 113, 143508 (2013).

25. Fang Cheng*, L. Z. Lin, L. B. Zhang and Guanghui Zhou, Electrical switching of quantum tunneling through p-n junction in a quantum spin Hall bar, Journal of Applied Physics 113, 053708 (2013).

24. Yang Gao*, Guanghui Zhou and Kai-He Ding, Effect of interaction between impurities on localized magnetic states in graphene, Solid State Communications 159, 1 (2013).

23. Genhua Liu*, Guanghui Zhou and Yong-Hai Chen, Modulation of external electric field on surface states of topological insulator Bi2Se3 thin films, Applied Physics Letters 101, 223109 (2012).

22. Yuan Li*, Mansoor B. A. Jalil, Seng Ghee Tan, Guanghui Zhou and Zhenghong Qian, Magnetoresistive effect of a topological-insulator waveguide in the presence of a magnetic field, Applied Physics Letters 101, 262403 (2012).

21. Wenhu Liao, Heping Zhao, Gang Ouyang, Ke-Qiu Chen and Guanghui Zhou*, Symmetry of atomistic structure for armchair-edge graphene nanoribbons under uniaxial strain, Applied Physics Letters 100, 153112 (2012).

20. Haiqing Wan, Ying Xu, and Guanghui Zhou*, Dual conductance, negative differential resistance, and rectifying behavior in a molecular device modulated by side groups, Journal of Chemical Physics 136, 184704 (2012).

19. Haiqing Wan, Benhu Zhou, Xiongwen Chen, Chang Q. Sun, and Guanghui Zhou*, Switching, Dual Spin-Filtering Effects, and Negative Differential Resistance in a Carbon-Based Molecular Device, Journal of Physical Chemistry C 116, 2570 (2012).

18. Xiaoying Zhou, Huaihua Shao, Yiman Liu, Dongsheng Tang and Guanghui Zhou*, Spatial distribution of spin polarization in a channel on the surface of a topological insulator, Journal of Physics: Condensed Matter 24, 185301 (2012) .

17.Yuan Li*, M. B. A. Jalil, Seng Ghee Tan, and Guanghui Zhou, Electrical modulation of the edge channel transport in topological insulators coupled to ferromagnetic leads, Journal of Applied Physics 112, 063710 (2012).

16. Benhu Zhou*, Benliang Zhou, Zongqiao Liu and Guanghui Zhou*, Thermoelectric effect in a graphene sheet connected to ferromagnetic leads, Journal of Applied Physics 112, 073712 (2012).

15. Gang Ouyang*, Guowei Yang and Guanghui Zhou, A comprehensive understanding of melting temperature of nanowire, nanotube and bulk counterpart, Nanoscale 4, 2748 (2012).

14. Benhu Zhou*, Benliang Zhoub, Aihua Zenga and Guanghui Zhou, Electronic transport for pristine and doped crossed graphene nanoribbon junctions with zigzag interfaces, Physics Letters A 376, 1710 (2012).

13. Xiongwen Chen, Kehui Song, Benhu Zhou, Haiyan Wang, and Guanghui Zhou*, Dependence of transport on adatom location for armchair-edge graphene nanoribbons, Applied Physics Letters 98, 093111 (2011).

12. Xiongwen Chen, Haiqing Wan, Kehui Song, Dongsheng Tang,and Guanghui Zhou*, Scanning tunneling microscopy image modeling for zigzag-edge graphene nanoribbons, Applied Physics Letters 98, 263103 (2011).

11. Huaihua Shao, Xiaoying Zhou, Yuan Li, Genhua Liu, and Guanghui Zhou*, Spin polarization and charge transmission for a waveguide on surface of topological insulator, Applied Physics Letters 99, 153104 (2011).

10. Genhua Liu*, Guanghui Zhou, and Yong-Hai Chen, Effect of transverse electric field on helical edge states in a quantum spin-Hall system, Applied Physics Letters 99, 222111 (2011).

9. Benhu Zhou, Xiongwen Chen, Benliang Zhou, Kai-HeDing and Guanghui Zhou*, Spin- dependent transport for armchair-edge graphene nanoribbons between ferromagnetic leads, Journal of Physics: Condensed Matter 23, 135304 (2011).

8. Xiongwen Chen, HaiyanWang, HaiqingWan, Kehui Song and Guanghui Zhou*, Semiconducting states and transport in metallic armchair-edged graphene nanoribbons, Journal of Physics: Condensed Matter 23, 315304 (2011).

7. Fang Cheng, Guanghui Zhou and Kai Chang*, Spin-orbit interaction induced anisotropic property in interacting quantum wires, Nanoscale Research Letters 6, 213 (2011).

6. Fang Cheng and Guanghui Zhou, Alternating current transport property for a two-channel interacting quantum wire, Solid State Communications 151, 1256 (2011).

5.Benhu Zhou, Xiongwen Chen, Haiyan Wang, Kai-He Ding and Guanghui Zhou*, Magnetotransport and current-induced spin transfer torque in a ferromagnetically contacted graphene, Journal Physics: Condensed Matter 22, 445302 (2010).

4. W.H. Liao, B.H. Zhou, H.Y. Wang and G.H. Zhou*, Electronic structures for armchair-edge graphene nanoribbons under a small uniaxial strain, European Physical Journal B 76, 463 (2010).

3. B.H. Zhou, W.H. Liao, B.L. Zhou, K.-Q. Chen and G.H. Zhou*, Electronic transport for a crossed graphene nanoribbon junction with and without doping, European Physical Journal B 76, 421 (2010).

2. Benliang Zhou, Benhu Zhou, Wenhu Liao and Guanghui Zhou*, Electronic transport for armchair graphene nanoribbons with a potential barrier, Physics Letters A 374, 761 (2010).

1. Ben-hu Zhou, Y. Xu, S. Wang, Guanghui Zhou* and K. Xia, An ab initio investigation on boundary resistance for metallic grains, Solid State Communications 150, 1422 (2010).

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