刘红
1969年生，1992/1995年新疆大学应用物理专业/理论物理专业本科/硕士毕业，1999年湖南大学无机非金属材料专业博士毕业，1999-2002年南京大学理论物理博士后，2010年8月至2011年8月获江苏省教育厅留学基金资助赴德国帕德博恩大学物理系做访问研究。2002年至今南京师范大学物理系任教，2014年评为教授.

主讲课程 大学物理、固体物理、电动力学、材料物理
研究领域 低维材料物理性质的理论研究与数值计算，以碳管和石墨烯为研究对象
联系方式 不公开liuhong3@njnu.edu.cn

2000-2008年 主要采用Landauer-Buettiker 方法研究纳米碳管异质结的结构及相关的电输运性质、TMR效应以及声子谱。
目前，从事碳管和石墨烯光学性质的理论研究和数值计算，已在量子光学理论的基础上推导出适用于碳管和石墨烯的半导体布洛赫方程，可研究线性和非线性光学性质特别是激子的吸收光谱，今后将研究碳管和石墨烯的三阶非线性极化率和激子的动力学演化问题。

1.第一作者论文（仅不列此项时可删除该标题）
(1)Liu Hong,Brightened spin-triplet exciton induced by spin-orbit couplings in semiconducting carbon nanotubes,Euro. J. Phys. B，2020，93(1)：19-7p
(2)Liu Hong, Tunable Edge Bands and Optical Properties in Black Phosphorus Nanoribbons under Electric Field, Chin. Phys. B 27(12 ), 127301(2018).
(3)Hong Liu, Band structure and edge states of star-like zigzag graphene nanoribbons, Chin. Phys. B, 2017, 26(11 ):117301-3p.
(4)Hong Liu, Novel conductance step in carbon nanotube with wing-like zigzag graphene nanoribbons, Chin. Phys. B, 2017, 26(11 ):116101-4p.
(5)Hong Liu, Influence of strong screening effect on the perpendicular polarized linear excitonic absorption spectra of semiconducting carbon nanotubes, Euro. J. Phys. B，2016，89(10)：230-9p
(4) Hong Liu, Bian Hu, and Na Liu, The opposite induced magnetic moment in narrow zigzag graphene nanoribbons. Phys. Lett. A，2016，380(44)：3738-3742
(5) Hong Liu, Heinze, Dirk; Thanh Duc, Huynh; Schumacher, Stefan; Meier, Torsten, Curvature effects in the band structure of carbon nanotubes including spin-orbit coupling, J. Phys. Condens. Matter，2015，27(44)：445501-8p
(6) Hong Liu, Stefan Schumacher, and Torsten Meier, Influence of Coulomb-induced band couplings on linear excitonic absorption spectra of semiconducting carbon nanotubes, Phys. Rev. B，2014，89(15)：155407-7p
(7) Hong Liu, Stefan Schumacher, and Torsten Meier, Selection rules and linear absorption spectra of carbon nanotubes in axial magnetic fields, Phys. Rev. B，2013，88(3)：035429- 5p
(8) Hong Liu, Band Structures of Carbon Nanotube with Spin-Orbit Coupling Interaction, Physica B，2011，406(1)：104-107
(9) Hong Liu, Size effect of spin-polarized transport in FM/ Single- walled carbon nanotube/FM junctions, Phys. Lett. A，2012，376(45)：3295-3300
(10) Hong Liu, Size Effect of Quantum Conductance in Y-Junctions Carbon Nanotube, Chin. Phys. B，2010，19 (5):057206-9p
(11) Hong Liuand Wenpeng Han, Band Structure of Strain- deformed BC₃Nanotube, Acta Physica Sinica，2010，59(6)：4194-4201
(12) Hong Liu, Haijian Yin, Shuning Xia, Electrical Properties of the Deformed Carbon Nanotube Field-Effect Transistors, Acta Physica Sinica，2009，58(12): 8489-8500
(13) Hong Liu, Haijian Yin, Electrical properties of Carbon Nanotube Field-Effect Transistors in Applied Axial Magnetic Field, Acta Physica Sinica，2009，58(5): 3287-3292
(14)Hong Liu, Lattice Wave Transmission through One-Dimensional Defected Chain,Int. J. Mod. Phys. B，2007，21(27)：4677-4688
(15) Hong Liu, Induced Magnetic Moment in Defected Single-Walled Carbon Nanotubes, Nanotechnology，2005，16(12)：3001-3005
(16) Hong Liuand YC Tao, Coherent transport between two interface states in single-walled carbon nanotube quantum dots, Nanotechnology，2005，16(4)：619-624
(17) Hong Liu, The influence of defect on quantum conductivity in three-terminated Y-(or T-)junction single-walled carbon nanotube, Phys. Lett. A，2005，339(3-5)：378-386
(18) Hong Liu, Electronic Structure and Nonlinear Properties of Charged Fullerences C₆₀, Chinese Journal of Computational Physics，2005，22(3)：256-260
(19) Hong Liu, Jiangwei Chen and Huatong Yang, Structural and electronic properties of defect and intramolecular junctions for single- walled carbon nanotube, Phys. Stat. Sol. B，2004，241(1)：127-133
(20) Hong Liu, Hongming Weng and Jinming Dong, Electronic structure and symmetry of small clusters C₂₈, J. Mol. Struct. (Theochem)，2004，671(1-3)：93-95
(21)Hong Liu，Quantum conductance in single-walled carbon nanotube quantum dots, DEFECT AND DIFFUSION FORUM，2004，226-228: 1-10
(22)Hong Liu, Yongchun Tao, Sized Effect on Quantum Conductance of Single-Walled Carbon Nanotube Quantum Dots, Euro. J. Phys. B，2003，36(3)：411-418
(23) Hong Liu, Jiangwei Chen, Nonlinear optical properties of a new substituted cluster: C₄₈N₁₂, Phys. Stat. Sol. B，2003，237(2)：575–580
(24) Hong Liu, Jinming Dong, Xiangang Wan, Dependence of in-tube carbon-chain on the radius and helicity of single-wall carbon nanotubes, Chin. Phys. Lett.，2002，19(1)：98-100
2.通讯作者论文
(1)刘娜(学生)、胡边、魏鸿鹏、刘红，锯齿型石墨烯纳米窄带中量子霍尔体系的电场调控，物理学报 67(11): 117301(2018)
(2)王雪梅(学生), 刘红, 锯齿型石墨烯纳米带的能带研究, 物理学报，2011，60(4): 554-563
(3) Yan Lü(学生), Hong Liu，Bing Gu，Chenglin Luo，Exciton Distribution on Single- Walled Carbon Nanotube, Euro. J. Phys. B，2010，74(4)：499-506
(4) Wenpeng Han(学生)and Hong Liu, Band Structure of Strain-deformed BC3 Nanotube, Acta Physica Sinica，2010，59(6)：4194-4201
(5) Peipei Yang(学生), Hong Liu, The Monte Carlo simulation study for nematic phases of liquid crystals, Chinese Journal of Computational Physics，2009，26(4): 597-602
3.既非第一作者又非通讯作者论文
(1) Yan Lü(毕业学生), Wengang Lü, and Wenjie Liang, Hong Liu, Energy splitting and optical activation of triplet excitons in zigzag-edged graphene nanoribbons, Phys. Rev. B，2013，88(16)：165425-5p
(2) Yan Lü(毕业学生), Shangqian Zhao, Yuchun Zhang, Hong Liu, Wengang Lü, Wenjie Liang, Valley-polarized insulating states in zigzag silicone nanoribbons, Materials Research Express，2014，1(4)：045009-10p
(3) Yan Lü(毕业学生), Shangqian Zhao, Wengang Lü, Hong Liu, and Wenjie Liang, Excitonic effects of E₁₁, E₂₂, and E₃₃in armchair-edged graphene nanoribbons, J. Appl. Phys.，2014，115(10)：103701-5p
附件：
碳管中光跃迁的选择定则
平行极化偏振激光下碳管中的激子