教师姓名:何军
职称:教授
职务:副校长
教师拼音名称:hejun
性别:男
所在单位:校领导
学历:博士研究生毕业
入职时间:2009-12-28
学位:博士学位
毕业院校:新加坡国立大学
在职信息:在职
学科:物理学

何 军,男,二级教授、博士生导师。中南大学党委常委、副校长,侨联主席。吉林大学物理学学士、硕士,新加坡国立大学物理学博士。先后在新加坡国立大学、美国纽约城市大学、加拿大多伦多大学访学研究。2009年评为中南大学教授,2010年入选中南大学升华学者特聘教授,2011年入选教育部新世纪优秀人才,2012年获国家优秀青年科学基金、湖南省杰出青年科学基金,2015年入选湖南省芙蓉学者特聘教授。研究领域为超快非线性光学、光电功能材料与器件、半导体自旋电子学。提出并验证了半导体纳米结构电荷空间分离可以调控电子或空穴自旋弛豫速率的概念;观察到半导体量子点多光子吸收饱和与共振现象并阐明其物理机制;发现了二维钙钛矿和MXenes材料的反常非线性吸收现象;建立了二维材料体系动态空间自相位调制和非线性光学调控的物理模型。在以Nat. Mater.、Nat.Commun.、Phys. Rev. Lett.为代表的国际期刊发表 SCI 论文 400余篇,SCI他引次数1.3万余次,h-index 64。近5年(2021年以来)发表第一或通讯作者SCI论文 64篇,其中JCR一区论文 52 篇、影响因子 10 以上论文 25 篇、单篇最大影响因子 38.5,入选科睿唯安全球高被引科学家和全球前2% 顶尖科学家。主持国家自然科学基金项目 4 项;出版专著2部;获湖南省自然科学奖二等奖 1 项(排名第1)、日内瓦国际发明奖银奖 1项(排名第2);主持完成专利成果单项转化 120 万元。发表教研教改论文15篇;承担省部级以上教研教改项目14项;获省部级以上高等教育教学成果奖8项,其中国家教学成果奖二等奖1项(排名第3)、牵头获湖南省教学成果奖特等奖2项、二等奖 1 项。
担任《现代大学教育》主编,《中国光学》、《光电工程》、《中南大学学报(英文版)》编委;教育部高校实验室建设与实验教学指导委员会秘书长、“慕课西部行”工作委员会委员(实验教学西部行组长)、第八届全国高等教育自学考试指导委员会副主任委员、本科教育教学审核评估专家;中国高等教育学会常务理事、教育评估分会常务理事、科技服务专家指导委员会副主任;湖南省学科评议组成员,湖南省纳米光子学与器件重点实验室主任,湖南省普通本科高校教学管理与教学能力建设指导委员会主任,湖南省学位授权点合格评估专家;国家基础学科拔尖学生培养计划2.0基地(物理学)负责人,国家语言文字推广基地(中南大学)主任,湖南省光电信息科学与工程一流专业建设点负责人;中南大学第七届学位评定委员会副主任、物理学科带头人。
曾任职湖南省政协第十二届委员会委员;湖南省高等教育学会副会长、湖南省光学学会副理事长、湖南省超微结构与超快过程重点实验室副主任;中南大学本科生院院长,物理与电子学院副院长、院长,先进材料超微结构与超快过程研究所副所长、党支部书记。
近 6 年代表性论文(影响因子 10 以上论文):
28. Zhou, L; Li, FY; Lu, Z; Wang, YW*; He, J*, Two-dimensional atomic crystals for third-order nonlinear optical modulation, CHINESE JOURNAL OF STRUCTURAL CHEMISTRY, 2026, 45(2):100772 (JCR:Q1; IF:10.3)
27. Zhou, L; Wang, YD; Li, X; Kang, JL; Song, YJ; Chang, HL; Zheng, WX (Zheng, Wanx; Zhang, B; Zhong, MZ; Chen, ZH; Huang, H; Xiao, S; Wang, YW*; He, J*, Photoinduced Interfacial Charge Transfer Tailors Second-Harmonic Generation in NbSe2-MoS2 Heterostructures, Nano Letters, 2026, 26(5):1766-1773 (JCR:Q1; IF:12.26)
26. Wanglong Wu, Shuo Liu, Xinyun Zhou, Zhiyuan Liu, Ruiying Ma, Le Yuan, Qinglin Xia, Mianzeng, Zhong*, Jingbo Li*, Jun He*, Ultra-wide and self-powered WSe2/4H-SiC hybrid-dimensional heterojunction photodetector with rapid response toward multifunctional applications, Applied Physics Reviews, 2025, 12(2): 021416 (JCR:Q1; IF:11.6)
25.Li Zhou, Yiduo Wang, Jianlong Kang, Xin Li, Quan Long,Xianming Zhong, Zhihui Chen, Chuanjia Tong, Keqiang Chen,Zi-Lan Deng, Zhengwei Zhang, Chuan-Cun Shu, Yongbo Yuan, Xiang Ni, Si Xiao, Xiangping Li, Yingwei Wang* and Jun He*, Observation of polaronic state assisted sub-bandgap saturable absorption. Opto-Electronic Advances, 2025, 8(6): 240312 (JCR: Q1: IF:15.3)
24. Wanglong Wu, Shuo Liu, Zhiyuan Liu, Xinyun Zhou, Xiong Yang, Xinyun He, Qinglin Xia, Mianzeng, Zhong*, Jingbo Li*, Jun He*, High-voltage-resistant wafer-scale 4H-SiC ultraviolet photodetector with high uniformity enabled by electric field distribution modulation, Nano Research, 2025, 18: 94907259 (JCR:Q1; IF:10.3)
23. Ouyang, Yihang; Dai, Jin; Wan, Zhenzhen; Zhou, Wenzhe; Xu, Tao; Novoselov, Kostya S.; Koperski, Maciej*; Chen, Zhihui*; He, Jun*, Strain Control of Third Harmonic Generation in Nb2SiTe4 Driven by Tuneable Anisotropic Characteristics, Advanced Functional Materials, 2024, 35(17): 2422428; (JCR: Q1; IF: 18.5)
22.Yifu Chen, Xinxin Peng, Weiran Qin, Shiqing Li, Lin Zhang, Yingwei Wang, Zhihui Chen, Bin Yang, Yongbo Yuan, Jun He*, Jinsong Huang* and Yun Lin*, Filterless Bandpass Photodetectors Enabled by 2D/3D Perovskite Heterojunctions, Advanced Functional Materials, 2024, 34(41):2403942; (JCR: Q1; IF: 18.5)
21. Xiaoxue Ren, Jifei Wang, Yun Lin, Yingwei Wang, Haipeng Xie, Han Huang, Bin Yang, Yanfa Yan, Yongli Gao, Jun He*, Jinsong Huang* & Yongbo Yuan*; Mobile iodides capture for highly photolysis- and reverse-bias-stable perovskite solar cells, Nature Materials,2024,23: 810-817 (JCR: Q1; IF: 41.2)
20.Huang, Zhuohui; Li, Yanran; Zhang, Yi; Chen, Jiewei; He, Jun*; Jiang, Jie*; 2D multifunctional devices: from material preparation to device fabrication and neuromorphic applications, INTERNATIONAL JOURNAL OF EXTREME MANUFACTURING, 2024, 6(3): 032003 (JCR: Q1; IF: 14.7)
19. Yiduo Wang, Yingwei Wang*, Changyong Lan, Li Zhou, Jianlong Kang, Wanxin Zheng, Tianyu Xue, Yejun Li, Xiaoming Yuan, Si Xiao, Heping Li*, Jun He*, Interfacial Charge Transfer for Enhancing Nonlinear Saturable Absorption in WS2/graphene Heterostructure, Advanced Science, 2024, 11(12): 2306096 (JCR: Q1; IF: 15.1)
18. Yiduo Wang, Yingwei Wang*, Yulan Dong, Li Zhou, Jianlong Kang, Ning Wang, Yejun Li, Xiaoming Yuan, Zhengwei Zhang, Han Huang, Mengqiu Long, Si Xiao and Jun He*. 2D Nb2CTx MXene/MoS2 heterostructure construction for nonlinear optical absorption modulation. Opto-Electronic Advances, 2023, 6(10): 220162 (JCR: Q1: IF:15.3)
17. F. Zhang, Z. X. Mo, B. C. Cui, S. Liu, Q. L. Xia, L. W. Li, Z. W. Zhang, J. He*, M. Z. Zhong*, Bandgap engineering of BilnS nanowire for Wide-Spectrum, High Responsivity, and Polarimetric-Sensitive Detection, Advanced Functional Materials, 2023, 33(49): 2306077 (JCR:Q1; IF:19.0)
16. Dingdong Xie, Ge Gao, Bobo Tian, Zhiwen Shu, Huigao Duan, Wei-Wei Zhao*, Jun He*, Jie Jiang*, Porous Metal–Organic Framework/ReS2 Heterojunction Phototransistor for Polarization-Sensitive Visual Adaptation Emulation, Advanced Materials, 2023, 2023, 35(26): 2212118. (JCR:Q1; IF: 32.1)
15. Mianzeng Zhong, Baocheng Cui, Zhangxun Mo, Yali Yu, Qinglin Xia, Fen Zhang, Ziqi Zhou, Le Huang, Bo Li, Juehan Yang, Jun He*, and Zhongming Wei*, Gate-controllable band alignment transition in 2D black-Arsenic/WSe2 heterostructure, Applied Physics Reviews, 2023, 10(2): 021416 (JCR:Q1; IF: 19.5 )
14. Yiduo Wang, Yingwei Wang*, Jun He*, Two-dimensional (2D) transition metal carbides (MXenes) for Third Order Nonlinear Optics: Status and Prospects. Laser & Photonics Reviews, 2023, 17(5): 2200733. (JCR: Q1; IF: 10.9)
13. Li Zhou, Jianlong Kang, Yulan Dong, Yiduo Wang, Yejun Li, Han Huang, Si Xiao, Yingwei Wang*, and Jun He*, Solvent-stabilized few-layer violet phosphorus and its ultrafast nonlinear optics, Nano Research, 2023, 16(4): 5843 (JCR:Q1; IF:10.269)
12. Gang Wang, Tanghao Liu, Bingzhe Wang, Hao Gu, Qi Wei, Zhipeng Zhang, Jun He*, Mingjie Li*, Guichuan Xing*, Hot-carrier tunable abnormal nonlinear absorption conversion in quasi-2D perovskiteles, Nature Communications, 2022, 13, 6935. (JCR: Q1; IF: 17.69)
11. Dingdong Xie, Kai Yin, Zhongjian Yang, Han Huang, Xiaohui Li, Zhiwen Shu, Huigao Duan, Jun He*, and Jie Jiang*, Polarization-perceptual anisotropic two-dimensional ReS2 neuro-transistor with reconfigurable neuromorphic vision, Materials Horizons, 2022, 9(5): 1448-1459 (JCR:Q1; IF:15.717)
10. Kai Yin, Lingxiao Wang, Qinwen Deng, Qiaoqiao Huang, Jie Jiang*, Guoqiang Li*, and Jun He*, Femtosecond Laser Thermal Accumulation-Triggered Micro-/Nanostructures with Patternable and Controllable Wettability Towards Liquid Manipulating, Nano-Micro Letters, 2022, 14(1): 97 (JCR:Q1; IF:23.655)
9. Yingwei Wang*, Li Zhou, Mianzeng Zhong, Yanping Liu, Si Xiao, and Jun He*, Two-dimensional noble transition-metal dichalcogenides for nanophotonics and optoelectronics: Status and prospects, Nano Research, 2022, 15(4): 3675-3694 (JCR:Q1; IF:10.269)
8. Junrui Wu#, Jun He#, Kai Yin*, Zhuo Zhu, Si Xiao, Zhipeng Wu, Ji-An Duan, Robust Hierarchical Porous PTFE Film Fabricated via Femtosecond Laser for Self-Cleaning Passive Cooling, Nano Letters, 2021, 21(10):4209-4216 (JCR:Q1; IF:12.262)
7. Xiaoming Yuan*, Dong Pan, Yijin Zhou, Xutao Zhang, Kun Peng, Bijun Zhao, Mingtang Deng*, Jun He*, Hark Hoe Tan, and Chennupati Jagadish, Selective area epitaxy of III-V nanostructure arrays and networks: Growth, applications, and future directions, Applied Physics Reviews, 2021, 8(2): 021302 (JCR:Q1; IF: 19.527 )
6. Dingdong Xie, Liubo Wei, Min Xie, Leyong Jiang, Junliang Yang, Jun He*, Jie Jiang*, Photoelectric Visual Adaptation Based on 0D-CsPbBr3-Quantum-Dots/2D-MoS2 Mixed-Dimensional Heterojunction Transistor, Advanced Functional Materials, 2021, 31(14): 2010655 (JCR:Q1; IF:19.924)
5. Mianzeng Zhong, Haotong Meng, Sijie Liu, Huai Yang, Wanfu Shen, Chunguang Hu, Juehan Yang, Zhihui Ren, Bo Li, Yunyan Liu, Jun He*, Qinglin Xia*, Jingbo Li, and Zhongming Wei*, In-Plane Optical and Electrical Anisotropy of 2D Black Arsenic, ACS Nano, 2021,15(1): 1701-1709 (JCR:Q1; IF:18.027)
4. Yongchao Cheng, Huangjinwei Li, Biao Liu, Leyong Jiang, Min Liu, Han Huang, Junliang Yang, Jun He* and Jie Jiang*, Vertical 0D‐Perovskite/2D‐MoS2 van der Waals Heterojunction Phototransistor for Emulating Photoelectric‐Synergistically Classical Pavlovian Conditioning and Neural Coding Dynamics, Small, 2020, 16(45): 2005217 (JCR:Q1; IF:15.153)
3. Yiduo Wang, Yingwei Wang, Keqiang Chen, Kun Qi, Tianyu Xue, Han Zhang, Jun He*, Si Xiao*, Niobium-Carbide Mxenes with Broadband Nonlinear Optic Response and Ultrafast Carrier Dynamics, ACS Nano,2020, 14(8):10492-10502 (JCR:Q1; IF:18.027)
2. Juan Yu, Xiaofei Kuang, Yuanji Gao, Yunpeng Wang, Keqiu Chen, Zhongke Ding, Jia Liu, Chunxiao Cong, Jun He*, Zongwen Liu*, Yanping Liu*, Direct Observation of Linear Dichroism Transition in Two-dimensional Palladium Diselenide, Nano Letters, 2020, 20(2):1172-1182 (JCR:Q1; IF:12.262)
1. Guangdi Feng, Jie Jiang*, Yuhang Zhao, Shitan Wang, Biao Liu, Kai Yin, Dongmei Niu, Xiaohui Li, Yiqin Chen, Huigao Duan, Junliang Yang, Jun He*, Yongli Gao, and Qing Wan*, A Sub-10 nm Vertical Organic/Inorganic Hybrid Transistor for Pain-Perceptual and Sensitization-Regulated Nociceptor Emulation, Advanced Materials, 2020, 32(6):1906171 (JCR:Q1; IF:32.086)

2021/01/06 热烈祝贺周莉同学最新工作“Femtosecond carrier dynamics and saturable absorption in few layer germanium sulfide”在《OPTIK》正式上线发表!!!
文章链接:https://www.sciencedirect.com/science/article/pii/S0030402620320283
2020/12/17 热烈祝贺何军教授,钟绵增副教授最新合作文章“In-Plane Optical and Electrical Anisotropy of 2D Black Arsenic”在《ACS Nano》正式上线发表!!!
文章链接:https://pubs.acs.org/doi/10.1021/acsnano.0c09357
该工作对窄带隙半导体少层b-As面内各向异性的系统研究。提出了一种简单的方法来确定b-As晶体的取向。实验表明,电子和空穴的最大迁移率是在面内armchair(AC)方向上测量得到的,测得的最大电子迁移率比约为2.68,空穴迁移率比约为1.79。b-As的振动,光学和电学输运各向异性表明其有望探索多功能纳米电子和光电器件

2020/10/10 热烈祝贺蒋杰副教授,何军教授最新合作文章“Vertical 0D‐Perovskite/2D‐MoS2 van der Waals Heterojunction Phototransistor for Emulating Photoelectric‐Synergistically Classical Pavlovian Conditioning and Neural Coding Dynamics”在《Small》正式上线发表!!!
文章链接:https://onlinelibrary.wiley.com/doi/full/10.1002/smll.202005217
2020/09/15 热烈祝贺课题组王迎威博士,李晓琴同学合作文章在《Frontiers in Physics》在线发表!!!
文章链接:https://www.frontiersin.org/articles/10.3389/fphy.2020.00298/full
2020/09/14 恭喜课题组马英同学,何奕林同学最新合作文章被国际知名光学期刊《Photonics Research》正式接收发表!!!
文章链接:https://www.osapublishing.org/prj/fulltext.cfm?uri=prj-8-11-1725&id=441877
2020/07/26 恭喜课题组王迎威博士,王一多同学合作文章在《ACS Nano》上发表
非线性光学研究光在介质中的非线性传输动力学,既是光学领域的一个重要分支,也是现代集成光子学器件的关键技术。非线性光学材料被广泛应用于纳米光子学器件,例如超短脉冲激光器、光开关、光调制器、光探测器和光存储器等。随着纳米光子学器件的发展,对非线性光学材料的超高和超快非线性极化率、制造和集成能力等提出更高要求,寻找开发具有高非线性光学响应、超微结构的新型纳米材料是未来发展的重要方向。
二维碳化铌(Nb2C MXenes)材料作为二维材料家族新成员,表现出许多优异的的特性,例如类金属能带结构,强近红外光学响应等。课题组基于实验室自主搭建的非线性光学测试光学系统和瞬态吸收光谱测试系统,系统揭示了新型Nb2C MXenes宽波段的非线性光学吸收性质和超快受激载流子弛豫过程。结果表明,Nb2C MXenes三阶非线性极化率虚部Imχ(3)和品质因子分别达到-1.4×10-10 esu and 7.5×10-12 esu cm。同时,实验观察到了Nb2C MXenes非线性吸收性质在近红外波段1500 nm附近表现出明显的翻转行为。结合第一性原理计算和非线性光学理论,确定了双光子吸收诱导非线性光学吸收特性翻转的物理机制。该成果为未来新型光调制器、光子二极管等纳米光子学器件的开发提供新的思路。王迎威博士,王一多同学为论文共同第一作者,何军教授和肖思副教授为共同通讯作者,中南大学为第一完成单位。
图 非线性光学测试系统装置示意图及不同波长测试结果
何军教授团队长期以来聚焦于低维材料纳米光子学物理机制和应用研究,近年来取得多项重要研究成果,先后发表在Advanced Material (Advanced Materials, 28, 8937; Advanced Materials, 32,1906171), ACS Nano (DOI: 10.1021/acsnano.0c04390), Nano Letters (Nano Letters, 20, 1172), Applied Physics Letters (Applied Physics Letters, 108, 221901; Applied Physics Letters, 107,091905), Optics Letters (Optics Letters, 45, 2850; Optics Letters, 44,179)等物理学、纳米科学国际权威期刊上。
该研究工作获得了国家自然科学基金面上项目、国家自然科学基金青年项目、湖南省芙蓉学者奖励计划等项目的资助。
【文章链接】
Niobium-Carbide Mxenes with Broadband Nonlinear Optic Response and Ultrafast Carrier Dynamics. https://pubs.acs.org/doi/10.1021/acsnano.0c04390
2020/01/17 热烈祝贺于娟同学最新文章在《Nano Letters》上发表
线性二色性(Linear dichroism,简称LD)是主要用于研究分子功能和结构的光谱技术。LD可以通过平行或垂直于一个取向方向轴的光吸收的差异测得。LD的测量基于光和物质之间的相互作用,是电磁光谱的一种形式,如今主要应用在研究生物高分子(如DNA)及人工合成的聚合物方面。各向异性光子材料中的线性二向色性(LD)转换广泛应用于选择性偏振-波长探测器、光开关和光通信等领域。在传统的二维(2D)各向异性材料中,由于材料的对称性降低而出现的LD在宽光谱范围内呈现的是单轴现象。至今,在二维材料中如何实现线性二色性转换行为仍然是个挑战课题。
针对此问题,中南大学刘艳平教授,何军教授,澳大利亚悉尼大学的刘宗文教授联合开展相关工作。在国际上首次成功演示了使用偏振分辨吸收光谱法在PdSe2中观察到独特的LD转换现象,该转换行为出现在472 nm波长处。472 nm波长两端的偏振吸收趋势完全相反,具体表现为364 nm和532 nm极坐标中的偏振吸收图恰好相差90°,意味着该材料在垂直x-y轴向上不能同时吸收可见光和紫外光。并且得到较高的x-y轴吸光比(364 nm处为1.11,532 nm处为1.15,633 nm处为0.84)。这种特殊的LD转换行为在极化敏感光电子器件、波长可调光电探测器和偏振热成像领域具有广阔的应用前景。此外,使用高分辨拉曼光谱技术得到极化分辨拉曼光谱,其中Ag和B1g模式展现出强劲的周期性并可快速判别其晶轴,与理论计算对称性分析非常吻合,这表明二维材料PdSe2具有很强的本征LD效应,同时为宏观层面上确定晶体取向提供了可靠的依据。该论文“Direct Observation of Linear Dichroism Transition in Two-dimensional Palladium Diselenide ”发表在《Nano Letters》期刊上。
图:(a)偏振分辨拉曼测量的原理图;(b)在364 nm、532 nm、633nm波长下的偏振吸收表征;(c)块体PdSe2的偏振能够吸收谱(光谱范围300~800 nm);(d)PdSe2的三维偏振分辨拉曼光谱
这项工作成功制备出大面积高质量的单层及少层PdSe2样品,并证实PdSe2具有高空气稳定度、强各向异性、强层间耦合等特性。而且提供了一种快速无损判别各向异性二维材料晶界和晶格取向的方法,也为二维各向异性材料在偏振光学,凝聚态物理和新概念器件方面的理论研究和实际应用奠定了基础。其独特的LD转换特性与内在的LD效应相结合,使得PdSe2成为多光谱成像,传感,偏振敏感和波长可控等光电应用技术创新的潜在候选者。
文章的第一作者为中南大学2018级硕士研究生于娟,中南大学刘艳平教授为通讯作者,中南大学何军教授和澳大利亚悉尼大学的刘宗文教授为共同通讯作者,中南大学为第一作者单位。该研究工作得到了国家自然科学基金、湖南省重点研发计划、中南大学创新驱动青年团队等项目基金的支持。同时,湖南大学陈克求教授课题组、复旦大学丛春晓教授课题组、中国地质大学刘佳副教授课题组等在微区光学测量,结构表征及光学性质计算等方面提供了有力支持。
【文章链接】
Direct Observation of Linear Dichroism Transition in Two-dimensional Palladium Diselenide. Juan Yu, Xiaofei Kuang, Yuanji Gao, Yunpeng Wang, Keqiu Chen, Zhongke Ding, Jia Liu, Chunxiao Cong, Jun He, Zongwen Liu, Yanping Liu. Nano letters, 20, 1172−1182.
Nano Lett., 2020-01-16. DOI: 10.1021/acs.nanolett.9b04598.
https://pubs.acs.org/doi/10.1021/acs.nanolett.9b04598

›国家自然科学基金面上项目:基于黑磷量子点的紫外可饱和吸收体研究,开始日期:2019-01-01,立项时间:2019-01-01,结项时间:2022-12-31.
›湖南省芙蓉学者特聘教授奖励计划:新型二维原子晶体材料的超快非线性光学研究,立项时间:2016-01-01
›国家优秀青年科学基金项目: 自旋学物理,立项时间:2013-01-11
›国家自然科学基金面上项目: 第二类半导体纳米晶异质结构的空穴自旋弛豫动力学研究,立项时间:2012-01-11
›教育部新世纪优秀人才支持计划: 半导体纳米晶异质结构的空穴自旋弛豫动力学,立项时间:2012-01-11
›国家重点实验室开放课题: 基于InP/InAsP量子点纳米线的外延生长、超快光学物理性质及其单光子特性研究,立项时间:2018-01-01
›教育部高校博士学科点专项科研基金: 半导体纳米晶异质结构的空穴自旋退相干过程研究,立项时间:2012-01-01
›湖南省杰出青年科学基金项目: 半导体纳米晶异质结构的空穴自旋弛豫动力学,立项时间:2012-01-01
›中央高校基本科研业务费专项: 碲化镉纳米晶的激子自旋弛豫动力学,立项时间:2011-06-01
›中南大学升华学者特聘教授奖励计划: 半导体纳米结构的自旋相干动力学及其光学调控,立项时间:2010-11-01

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›Xiaojing Wang, Huaijin Ren、 Jianqiang Shen、Gang Wang、Xianfeng Chen, and Jun He*.Coupled wave equation study of non-collinear phase-matching second harmonic generation and nonlinear Cherenkov radiation generated on the surface of bulk lithium niobate crystals doped with magnesium medium.Journal of Applied Physics, 2018, 124 (15) : 152123.
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›一种监控二维材料悬浮液或凝胶移动速率的方法,肖思,马英,张竞文,蒋祎琳,何军,杨英
›一种测量二维材料悬浮溶液中二维纳米材料浓度的方法》,肖思,黎彩燕,刘润凯,吕博赛,何军,杨英
›一种调控银纳米线长度的方法,肖思,吴姝芳,李宁,范琦,何军,柯建源
›一种控制微型液滴形状的方法,肖思,范琦,王刚,王鹏,何军,杨英
›一种柔性导电MoS2保温薄膜及其制备方法,肖思、王刚、刘润恺、王鹏、何军、杨英
›利用MoS2吸附剂清除水面油污的方法及吸附剂的回收方法,肖思、李晓红、张景迪、何军、王鹏、吕博赛
›NaYF4:Yb/Er MoS2结合物的制备方法,肖思、张景迪、邢若晨、何军、高亦谈
›一种可控增透限幅的MoS2纳微薄膜及其制备方法,肖思、张景迪、邢若晨、何军

›新世纪优秀人才,2011
›国家优秀青年基金获得者,2012
›国家优秀青年基金获得者,2012

›湖南省芙蓉学者特聘教授 (2015) 湖南省归侨侨眷先进个人 (2014) 宝钢优秀教师奖 (2013) 国家优秀青年科学基金获得者 (2012) 湖南省杰出青年科学基金获得者 (2012) 教育部新世纪优秀人才 (2011) 中南大学升华学者 (2010)

专业:物理学
专业:光学
专业:固体物理学

中南大学 › 中南大学 › 副校长 › 现任
中南大学 › 本科生院 › 院长 › 历任
中南大学 › 物理与电子学院 › 院长 › 历任
中南大学 › 二级学院 › 副院长 › 历任
中南大学 › 二级学院 › 副院长 › 历任
中南大学 › 物理与电子学院 › 教授 › 全职
加拿大多伦多大学 › 博士后研究员 › 全职
美国纽约城市大学 › 博士后研究员 › 全职
新加坡国立大学 › 研究员 › 全职
长春铁友集团公司 › 助理工程师 › 全职

湖南省高等教育学会副理事长
湖南省光学学会副理事长
《中国光学》期刊编委
《光电工程》期刊编委
《中国科学:物理学 力学 天文学》青年编委
湖南省学位委员会学科评议组成员