龙孟秋,男,1980年7月1日出生,副教授,毕业于湖南大学凝聚态物理专业,现就职中南大学物理与电子学院。2013年,香港城市大学物理与材料学科学系‘’香江学者‘’,讲授《固体物理学》《数学物理方法》等课程,在国际著名刊物上发表论文30余篇,被SCI 他引300余次。
正文
主要论著
1. 发表相关期刊论文(“*”为通讯作者)
[1]Meng-Qiu Long
, Ling Tang, Dong Wang, Linjun Wang, and Zhigang Shuai, Theoretical predictions of size dependent carrier mobility and polarity in graphene.J. AM. CHEM. SOC
., 131: 17728,2009
(IF:10.677);[2]Mengqiu Long
, Ling Tang, Dong Wang, Yuliang Li, and Zhigang Shuai*, Electronic Structure and Carrier Mobility in Graphdiyne Sheet and Nanoribbons: Theoretical Predictions,ACS Nano,
5, 2593-2600,2011
(IF:12.066);[3]Jin Xiao,
Meng-Qiu Long*
, Xinmei Li, Hui Xu, Han Huang, and Yongli Gao, Theoretical Prediction of Electronic Structure and Carrier Mobility in Single-walled MoS2 Nanotubes,Scientific Reposts
, 4, 4327,2014
(IF: 2.927);[4]Shen-Lang Yan,
Meng-Qiu Long*
, Xiao-Jiao Zhang, and Hui Xu, The effects of spin-filter and negative differential resistance on Fe-substituted zigzag graphene nanoribbons,Phys. Lett. A
378,960-965,2014
(IF: 1.766);[5]Can Cao, Ling-Na Chen,
Meng-Qiu Long*
, and Hui Xu, Rectifying Effects in Zigzag Graphene Nanoribbon Heterojunctions with Different Edge Hydrogenations,Physics Letters A
377, 1905-1910,2013
(IF: 1.766);[6]Meng-Qiu Long
, Ke-Qiu Chen, Lingling Wang, B. S. Zou, and Z. Shuai, Negative differential resistance induced by intermolecular interaction in a bimolecular device.Appl. Phys. Lett.
, 91:233512,2007
;(IF: 3.794)[7]Meng-Qiu Long
, Ke-Qiu Chen, Lingling Wang, Wan Qing, B. S. Zou, and Z. Shuai, Negative differential resistance behaviors in porphyrin molecular junctions modulated with side groups.Appl. Phys. Lett.
, 92: 243303,
2008
(IF: 3.794);[8]Can Cao, Ling-Na Chen,
Meng-Qiu Long*
, Wei-Rong Huang, and Hui Xu,Electronic transport properties on tansiton-metal terminated zigzag graphene nanoribbons,J. Appl. Phys.
111, 113708,2012
(IF:2.1);[9]Jinyang Xi,
Mengqiu Long
, Ling Tang, Dong Wang and Zhigang Shuai*, First-principles prediction of charge mobility in carbon and organic nanomaterials,Nanoscale
, 4, 4348,2012
(IF:6.233);[10]Ming-Jun Li,
Meng-Qiu Long*
, Ke-Qiu Chen, and Hui Xu, Fluorination effects on the electronic transport in Dithiophene-Tetrathiafulvalene (DT-TTF) molecular junctions,Solid State Communication
, 157,62-67,2013
(IF:1.543);[11]Ming-Jun Li, Hui Xua, Ke-Qiu Chen,
Meng-Qiu Long*
, Electronic transport properties in benzene-based heterostructure:Effects of anchoring groups,Physics Letters A
,
376, 1692–1697,
2012
(IF:1.766);[12]Xiao-Jiao Zhang, Ke-Qiu Chen, Li-Ming Tang,
Meng-Qiu Long*
, Electronic transport properties on V-shaped-notched zigzag graphene nanoribbons junctions,Phys. Lett. A
,375, 3319-3324,2011
(IF: 1.766);[13]Li Xin-mei,
Long Meng-qiu*
, Cui Li-lin, Xiao Jin, and Xu Hui, Electronic and transport properties of V-shaped defect zigzag MoS2 nanoribbons, Chinese Physics B, Vol. 23, No. 4, 04XXXX,2014
(IF:1.148);[14]Ming-Jun Li,
Meng-Qiu Long*
, and Hui Xu, Effects of the bridging bond on electronic transport in single-molecule devices,Chinese Physics Letters
30, 087201,2013
(IF:0.811);[15]LILING CUI, BINGCHU YANG, XINMEI LI, JUN HE, and
MENGQIU LONG*,
Electronic transport properties of transition metal (Cu, Fe) phthalocyanines connecting to V-shaped zigzag graphene nanoribbons,Int. J. Mod. Phys. B
28, 1450019,2014
(IF:0.358);[16]X.Z. Wu,
M. Q. Long*
, L.N.Chen, C.Cao, S.S.Ma, H.Xu, The effects of side groups on the electronic transport properties of carbon chain molecular devices,Physica E
, 45, 82-85,2012
(IF:1.522);[17]X. Z. Wu, L. N. Chen, C. Cao, W. R. Huang, H. Xu, and
M. Q. Long*
, The effect of asymmetrical electrode on the transport properties of molecular device,Physica B
, 411, 131–135,2013
(IF:1.327)[18]Xiao-Jiao Zhang,
Meng-Qiu Long
, Ke-Qiu Chen, Z. Shuai, Qing Wan, B. S. Zou, and Yan Zhang, Electronic transport properties in doped C60 molecular devices.Appl. Phys. Lett.
, 94: 073503,
2009
(IF: 3.794);[19]Meng-Qiu Long
, Lingling Wang, Ke-Qiu Chen, Xiao-Fei Li, B. S. Zou, and Z. Shuai, Coupling effect on the electronic transport through dimolecular junctions.Physics Letters A
, 365: 489-494,2007
(IF: 1.766);[20]Meng-Qiu Long
, Lingling Wang, Ke-Qiu Chen, Effects of structural and central metal ions modification on the electronic transport properties of porphyrin molecular junctions.Modern Physics Letter B
, 22, 661–670,2008
(IF:0.479)[21]Liu, B;Zou, YP;
Long, MQ
;He, YH;Zhong, H;Li, YF, Synthesis and photovoltaic properties of a solution-processable organic molecule containing dithienylbenzotriazole and triphenylamine,SYNTHETIC METALS
, 162(7-8),630-635,2012
(IF:2.109);[22]Tang Ling,
Long Meng-Qiu
, Wang Dong & Shuai ZhiGang, The role of acoustic phonon scattering in charge transport in organic semiconductors: a first-principles deformation-potential study,Science in China: Series B Chemistry
, 52, 16469-1652,2009
(IF:1.327);[23]Dong Wang, Ling Tang,
Meng-Qiu Long
, and Zhigang Shuai, First-Priciples Investigation of Organic Semiconductors for Thermoelectric Applications,J. Chem. Phys.
, 131:224704,2009
(IF:3.164);[24]Wang Dong, Tang Ling,
Long Mengqiu
, Shuai Zhigang*, Anisotropic Thermal Transport in Organic Molecular Crystals from Nonequilibrium Molecular Dynamics Simulations,J. Phys. Chem. C
, 115(13), 5940-5946,2011
(IF:4.814);[25]Xiao-Fei Li, Ke-Qiu Chen, Lingling Wang,
Meng-Qiu Long
, B. S. Zou, and Z. Shuai, Effect of length and size of heterojunction on the transport properties of carbon-nanotube devices,Appl. Phys. Lett.
, 91:133511,2007
(IF:3.794);[26]Xiao-Fei Li, Ke-Qiu Chen, Lingling Wang,
Meng-Qiu Long
, B. S. Zou, and Z. Shuai, Effect of intertube interaction on the transport properties of a carbon double-nanotube device,J. Appl. Phys.
, 101: 064514,2007
(IF:2.1).2. 奖励
[1]龙孟秋
,入选2013年度“Hong Kong Scholars Program”;[2]张小姣,陈克求,
龙孟秋
, Electronic transport properties in doped C60 molecular devices,湖南省科协,湖南省自然科学优秀学术论文,一等奖,2012年;[3]龙孟秋
,入选2011年度“中南大学升华猎英学者计划”;[4]龙孟秋
,湖南大学“优秀博士毕业论文”,2009年。3. 近年承担和参与的主要科研项目
(1) 石墨烯纳米带P-N结的理论设计理念,国家自然科学基金,No: 21103232, 2012.1-2014.12,25万元,主持
(2) 有机纳米结构中电荷输运性质的第一性原理研究,中南大学“升华猎英计划”,2011.9-2016.9,50万元,主持
(3) 石墨炔材料的载流子迁移率的计算与功能器件设计的理论研究,湖南省自科基金,2014-2016,4万元,主持
(4) 石墨烯和拓扑绝缘体的理论研究,“香江学者计划”,2014-2015,10万元,主持
(5) 新型有机自旋阀器件的理论设计及电荷性质机理研究,国家自科基金青年项目, 2014-2016,25万,参与
(6) 有机自旋器件的理论设计与自旋输运机理研究,中南大学“青年助推”项目,2011.7-2012.7,5 万元,主持
(7) 有机半导体中自旋的注入和反转基本机理,国家自然科学基金,2012.1-2015.12,60万元,参与
(8) 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,国家自然科学基金,2012.1-2015.12,62万元,参与
4. 课题组情况介绍
a、成员情况
副教授:龙孟秋 (组长),李新梅;
讲师:曹粲,李明君,伍晓瓒,欧阳俊(在读博士),崔丽玲(在读博士)
博士后:张小姣
博士生:严深浪,肖金,张丹
硕士生:邹运,曹航
本科生:朱博,杨小雨,孟东霄,陈歌,郑东超,乔艺,程鹏程
b、研究条件
曙光天阔高性能计算平台,含网络服务器、计算管理服务器,10个一般计算节点和一个胖节点,392个高性能计算核和768G内存,另有曙光DS600-G10磁盘阵列存储,含12块2T 企业级SATA硬盘并,配有infiniband高速光纤通信交换机,理论计算速度约4万亿次每秒;并配有VASP,ATK,SETFOS等商业计算软件,平台总经费约100万元。
c、主要研究领域
(1) 低维纳米材料与器件载流子输运性质研究
(2) 分子尺度纳米电子学
(3) 有机光电器件的理论设计
(4) 介观结构中的自旋和电荷输运
(5) 类石墨烯结构中的自旋-轨道耦合和自旋霍尔效应
参考资料1.学院领导 · 中南大学物理与电子学院门户网站(引用日期:2022-03-08)
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