李冲 简介

发布时间:2020年02月26日浏览次数:

 

姓名:李冲  职称:副教授

最终学历:博士  专业:凝聚态物理(材料计算)

通讯地址:物理学院A楼418  邮箱:lichong@zzu.edu.cn

一、教育背景

2010.09—2013.07  中科院半导体研究所 博士

2007.09—2010.07  郑州大学 硕士(免试)

2003.09—2007.07  郑州大学 本科

二、工作经历

2019.05—至今  副教授 郑州大学物理学院

2015.11—2016.11  访问学者 美国犹他大学材料科学工程系

2014.01—2016.12  校聘副教授 郑州大学物理工程学院

2013.07—2019.04  讲师 郑州大学物理工程学院

三、研究方向

1.低维半导体磁性,主要寻找面外(out of plane)的磁性,探索新的产生out of plane的机理。

2.强关联体系,主要研究电子的自旋和轨道耦合,及电子间的强相互作用导致新奇的物理现象,如量子反常霍尔效应,电荷密度波CDW。

3.分子光催化,此方向主要和北京工业大学的实验课题组合作,研究准原子即分子的光催化。

四、代表性成果

主持国家自然科学青年基金(11304288)

主持中国博士后科学基金(2014M552009)

主持河南省博士后科学基金一等(2013001)

主持郑州大学首届优秀青年教师发展基金(1421317051)

参与国家自然科学基金(10974182)

参与国家自然科学基金(11104264)

参与国家自然科学基金(61274099)

迄今发表SCI论文40余篇,包括Phys. Rev. Lett.,Adv. Mater.,Angew. Chem.Int.Ed.,Phys. Rev.B,Appl. Phys. Lett., Nanoscale, Carbon,单篇(一作)最高引用154次(Web of science)。

五、获奖

郑州大学青年骨干教师  2014年

薄膜生长过程结构演化和量子生长机理  河南省科技进步二等奖, 排名(6/10)  2015年

六、代表性论文#共同一作,*通讯作者)

1.Ultrahigh Photocatalytic Rate at aSingle-Metal-Atom-Oxide

Cong Wang, Ang Li,Chong Li, Shengbai Zhang,* Hui Li, Xiaoyuan Zhou,* Liming Hu,Yibo Feng, Kaiwen Wang, Z.Zhu, R. W.Shao, Y. H.Chen, P.Gao,S. C.Mao, Jun Huang, Ze Zhang, and Xiaodong Han*,Adv. Mater.1903491 (2019).

2.Anderson Localization in 2D Amorphous MoO3-xMonolayers for Electrochemical Ammonia Synthesis

Wei Liu#,Chong Li#,Qun Xu*, Pengfei Yan, Chunyao Niu, Yonglong Shen, Pengfei Yuan, and Yu Jia*,ChemCatChem,11, 5412(2019).

3.Reversible direct-indirect band transition in alloying TMDs heterostructures via band engineering

Y. B.Zi,Chong Li*,Fei Wang, Chunyao Niu, Jun-Hyung Cho,Yu Jia*,J. Phys.: Condens. Matter,31,435503(2019).

4.Ferromagnetic, antiferromagnetic, and Peierls distortion states in IVA-VA nanoribbons

Shouyan Bai,Chunyao Niu*,Chong Li,Chun-Xiang Zhaoand Yu Jia*,Applied Physics Letters, 115,162401(2019).

5. Two-dimensional amorphous heterostructures of Ag/a-WO3-x for high-efficiency photocatalytic performance

Yumei Ren#,Chong Li#, Jun Yan, Youzeng Li, Pengfei Yuan, Huicong Xia, Chunyao Niu, Xinan Yang, Yu Jia*, and Qun Xu*,Appl. Catal. B-Environ, 245, 648(2019).

6.Activation of MoS2Basal Planes for Hydrogen Evolution through Zinc

Wenzhuo Wu#,Chunyao Niu#, Cong Wei, Yu Jia*,Chong Li, and Qun Xu*,Angew.Chem.Int.Ed,131,2051(2019).

7.Asymmetric quantum confinement-induced energetically andspatially splitting Dirac ringsingraphene/phosphorene/grapheneheterostructure

Chong Li*, Jixing Gao, Yanbo Zi, Fei Wang, Chunyao Niu, Jun-Hyung Cho,Yu Jia*,Carbon, 140,164(2018).

8.Formation of a large gap quantum spin Hall phasein a 2D trigonal lattice with three p-orbitals

Chong Li, Kyung-Hwan Jin, Shuai Zhang, Fei Wang,Yu Jia*and Feng Liu*,Nanoscale, 10, 5496(2018).

9.Creation of Half-metallic f-orbital Dirac Fermion with Superlight Elements in Orbital-Designed Molecular Lattice

Bin Cui,Bing Huang*,Chong Li,Xiaoming Zhang,Kyung-Hwan Jin,Lizhi Zhang,Wei Jiang,Desheng Liu,and Feng Liu*,Phys.Rev.B,96,085134(2017).

10.Structural, electronic and magnetic properties of 3d transition metals embedded graphene-like carbon nitride sheet: A DFT +U study

S. Zhang,R. Z. Chi,Chong Li*, and Yu Jia*,Physics Letters A, 380,1373(2016)

11.Magnetic evolution and anomalous Wilson transition in diagonal phosphorene nanoribbons driven by strain

S. Zhang,Chong Li*, Z. X. Guo,Jun-Hyung Cho, Wan-sheng Suand Yu Jia*,Nanotechnology, 26, 295402 (2015).

(News report:http://nanotechweb.org/cws/article/lab/61927)

12.Intrinsic spin dependent and ferromagnetic stability on edge saturated zigzag graphene-like carbon-nitride nanoribbons

S. Zhang,Chong Li*, S. F. Li, Q. Sun, Z. X. Guo and Yu Jia*,Applied Physics Letters, 104, 172111 (2014).

13.Au Decorated Silicene: Design of High Activity Catalyst toward CO Oxidation

Chong Li, Shengxue Yang*, Shu-Shen Li, Jian-Bai Xia, and Jingbo Li*,Journal of Physical Chemistry C, 117, 483 (2013).

14.Self-assembled Ti quantum wire on Zigzag graphene nanoribbons with one edge saturated

Chong Li, Fengmin Wu, Jingbo Li*, Lin-Wang Wang*,Journal of Physical Chemistry C, 116, 24824 (2012).

15.Influence of indium cluster on high and constant background electron density in ternaryInxGa1-xN alloys

Chong Li, Fengmin Wu, Shu-Shen Li, Jian-Bai Xia, and Jingbo Li*,Applied Physics Letters, 101, 062102 (2012).

16.Selection rule of preferred doping site for n-type oxides

Chong Li, Jingbo Li*, Shu-Shen Li, Jian-Bai Xia, and Su-Huai Wei*,Applied Physics Letters, 100, 262109 (2012).

17.High capacity hydrogen storage in Ca decorated graphyne: A first-principles study

Chong Li, Jingbo Li*, Fengmin Wu, Shu-Shen Li, Jian-Bai Xia, and Lin-Wang Wang*,Journal of Physical Chemistry C, 115, 23221 (2011).

18.Kinetic and relativistic effects on the surface alloy formation of submonolayer Au adsorbedon Si(111)-Pb surface

Chong Li, Fengmin Wu, and Jingbo Li*,Applied Physics Letters, 99, 211912 (2011).

19.Surface alloy formation of noble adatoms adsorption on Si(111)-root3×root3-Pb surface: A first-principles study

Chong Li, F. Wang, Q. Sun, and Y. Jia,J. Phys.: Condens. Matter, 23, 265001 (2011).

20.Strong QSE in Pb(111) thin Films Driven by Unusual Friedel Oscillations

Y. Jia, B. Wu,Chong Li, T. L. Einstein, H. H. Weitering, Z. Y. Zhang,Physics Review Letters, 105, 066101 (2010).

21.Stability and electronic properties of the O-terminated Cu2O(111) surfaces

Chong Li, F. Wang, S. F. Li, Q. Sun, and Y. Jia,Physics Letters A, 374, 2994-2998 (2010).

22.First-principles investigation of mechanical and electronic properties of MNNi3 (M=Zn, Mg, or Cd)

Chong Li, W. G. Chen, Fei Wang, S. F. Li, Q. Sun, S.Y.Wang, and Yu Jia*,Journal of Applied Physics, 105, 123921 (2009).


 

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