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  • 李登峰


    李登峰,男,博士,生于1977年3月,四川阆中人,重庆市三级教授,校聘二级教授,凝聚态物理和光学工程方向的硕士生导师,重庆市理论物理重点学科方向带头人,材料科学与工程学科的学科负责人,重庆市物理学会理事,数理专业实验中心副主任,多次获得重庆市、校级优秀教师,2015年获重庆邮电大学“十佳青年教师”称号。

    联系方式:lidf@cqupt.edu.cn

    研究方向:低维纳米材料的物理性质研究,具体包括:新型低维纳米结构的预测;高导热性低维纳米材料的预测,低维纳米结构的力学性质、电学性质、热输运和热电输运性质。

    一、教育和工作经历:

    2013.09-2014.09,新加坡国立大学访问学者,结合第一性原理和非平衡格林函数方法研究二维材料的热输运,指导老师:王健生教授。

    2010.09-2011.09,清华大学访问学者,从事半导体器件的热稳定性理论研究,指导老师:段文晖院士(2011年破格评为教授职称)

    2005.03-2008.06,电子科技大学,光学专业,理学博士,从事半导体材料的电学、磁学和光学性质的第一性原理研究。指导老师:祖小涛教授(2005年获得讲师职称,2007年破格评为副教授职称)

    2003.07至今 工作于重庆邮电大学。

    2000.09-2003.07,福建师范大学,光学专业,理学硕士,光学专业。

    1996.09-2000.07,淮北师范大学,物理教育专业,理学学士。

    二、教学经历

    讲授过本科生课程《大学物理实验》、《大学物理》,研究生课程《材料物理》《固体光学》。

    三、近年来发表主要科研论文

    (1)Li Dengfeng* ; He Jia;Peng Cheng2, Jia He1, Yan Ying1, Yanxiao Hu1, Junfeng Gao3*, Lan Chen2*, Yuan Cheng4, Jijun Zhao3*;Two-dimensional boron sheets: structure, growth, electronic and thermal transport properties, Advanced Functional Materials, 2019, 1904349(受邀综述,影响因子:15.6)

    (2)Y.S. Zhao, G.Zhang, M.H. Nai, G. Q. Ding,D.F.Li,Y. Liu, K. Hippalgaonkar, C.T.Lim, D.Z.Chi, B.W.Li*, J.Wu*, JTL. Thong*, Probing the Physical Origin of Anisotropic Thermal Transport in Black Phosphorus Nanoribbons,Advanced Materials, 2018, 30(50):1804928(影响因子21)

    (3)Li Dengfeng* ; He Jia; Ding Guangqian; Tang QiQi; Ying Yan; He Junjie; Zhong Chengyong; Liu Yi; Feng Chunbao; Sun Qilong; Zhou Hangbo; Zhou Ping; Zhang Gang*, Stretch-Driven Increase in Ultrahigh Thermal Conductance of Hydrogenated Borophene and Dimensionality Crossover in Phonon Transmission , Advanced Functional Materials, 2018.08.1, 28(31): 0~1801685 (影响因子:15.6封面论文)

    (4) He Jia ;Li Dengfeng*; Ying Yan; Feng Chunbao; He Junjie; Zhong Chengyong; Zhou Hangbo; Zhou Ping; Zhang Gang* , Orbitally Driven Giant Thermal Conductance Associated with Abnormal Strain Dependence in Hydrogenated Graphene-like Borophene, npj Computational Materials,2019, 5(47)(一作为研究生,影响因子9)

    (5)Guangqian Ding*, Cong Wang, Guoying Gao*, Kailun Yao, Chaochao Dun, Chunbao Feng,Dengfeng Li*, Gang Zhang*. Engineering of charge carriers via a two-dimensional heterostructure to enhance the thermoelectric figure of merit.Nanoscale, 2018, 10(15): 7077-7084.(影响因子8)

    (6)Chengyong Zhong*, Weikang Wu, Junjie He, Guangqian Ding, Yi Liu,Dengfeng Li, Shengyuan A Yang*, Gang Zhang*, Two-dimensional Honeycomb Borophene Oxide: Strong Anisotropy and Nodal Loop Transformation, Nanoscale, 2019, 11(5):2468-2475(影响因子8)

    (7)Junjie He*, Guangqian Ding, Chengyong Zhong, Shuo Li,Dengfeng Li, Gang Zhang*, Cr2TiC2-based Double MXenes: Novel 2D Bipolar Antiferromagnetic Semiconductor with Gate-controllable Spin Orientation towards Antiferromagnetic Spintronics, Nanoscale, 2019, 11(1): 356-364(影响因子8)

    (8)J.He*, G.Q. Ding, C.Y. Zhong, S.Li,D.F.Li,G.Zhang*, Remarkably enhanced ferromagnetism in a super-exchange governed Cr2Ge2Te6monolayer via molecular adsorption. J. Mater. Chem. C 2019, 7(17):5084-5093(影响因子5.7)

    (9)D. F. Li, Y. Chen, J. He, A novel class of one-dimensional Ta4TMTe4(TM = Cr, Fe, Co and Ni) compounds with strain-switched magnetic states,Phys. Chem. Chem. Phys., 2018,20(10): 6990-6995.(影响因子4)

    (10)D. Li,Y. Xu,X. Chen,B. Li,W. Duan,Tunable anisotropic thermal conduction in graphane nanoribbons,Appl. Phys. Lett.,2014,104(14):143108。(影响因子3)

    (11)D. Li,B. Li,M. Luo,C. Feng,T. Ouyang,F. Gao,Thermal transport properties of rolled graphene nanoribbons,Appl. Phys. Lett.,2013,103(7):071908(影响因子3)

    (12)D.F.Li,B.Deng, S.W.Xue, Z.G.Wang and F.Gao,Dual-donor codoping approach to realize low-resistance n-type ZnS Semiconductor[J],Applied Physics Letters, 2011, 99(5):052109.(SCI: 803XV)(影响因子3)

    (13)D.F.Li,Z.G.Wang and F.Gao,First-principles study of the electronic properties of wurtzite, zinc-blende, and twinned InP nanowires[J],Nanotechnology, 2010, 21:505709.(SCI:685JH)(影响因子3)