单壁碳纳米管径向形变对介电常数和吸收光谱的影响

人工晶体学报, 2009, 38(3): 638-647.

单壁碳纳米管径向形变对介电常数和吸收光谱的影响

王利光 ^1, , 郭良 ^2, , 王畅 ^3, , 颜浩然 ^4, , ^5,

1.江南大学理学院,无锡,214122

2.江南大学理学院,无锡,214122

3.黑龙江八一农垦大学理学院,大庆,163319

4.江南大学理学院,无锡,214122

5.新加坡南洋理工大学电气与电子工程学院,新加坡,639798

基金项目: 南京大学固体微结构物理国家重点实验室项目(M06008) 教育部国际合作研究项目(20060360563) 国家重点基础研究发展规划(973计划)(2003CB716204) 江苏省自然科学基金(BK2008097)

关键词：单壁碳纳米管 , 径向形变 , 广义梯度近似 , 吸收光谱 , 介电常数

Influence of Radial Deformed on Dielectric Constant and Absorption Spectra of Single-wall Carbon Nanotube

采用广义梯度近似方法中的PBE(J. Perdew、K.Burke和M. Ernzerhof)技术,对结构为(10,0)的锯齿型单壁碳纳米管在径向发生0.0～0.5扁率时的介电常数ε和光谱特性进行了理论研究.结果显示:(10,0)型单壁碳纳米管的径向形变对其介电常数峰值及光谱峰值的大小、位置和频率范围都有较大的影响.当入射光偏振方向垂直管轴时,介电常数峰值向低频区偏移,光谱峰值则依赖于初始位置.当入射光的偏振方向平行于管轴时,主要特征是介电常数幅值的变化和光谱范围的拓宽,同时,介电常数峰值向低频区偏移.

参考文献

[1]	Dai H J;Wong E W;Lieber M .Probing Electrical Transport in Nanomaterials:Conductivity of Individual Carbon Nanotubes[J].Science,1996,272:523-526.
[2]	Fu H X;Ye L;Xie X D .Optical Properties for Graphene Microtubules of Different Geometries[J].Solid State Communications,1994,91(03):191-194.
[3]	Wan XG.;Xing DY.;Dong JM. .Symmetry effect on the optical properties of armchair and zigzag nanotubes[J].Solid State Communications,1998(12):791-795.
[4]	Wan XG.;Xing DY.;Dong JM. .Optical properties of carbon nanotubes[J].Physical Review.B.Condensed Matter,1998(11):6756-6759.
[5]	Imiloevic;Vukovi T;Dmitrovic S et al.Polarized Optical Absorption in Carbon Nanotubes:A Symmetry-based Approach[J].Physical Review B,2003,67(16):165418.1-165418.6.
[6]	Marinopoulos AG.;Reining L.;Rubio A.;Vast N. .Optical and loss spectra of carbon nanotubes: Depolarization effects and intertube interactions - art. no. 046402[J].Physical review letters,2003(4):6402-0.
[7]	Deheer WA;Bacsa WS;Chatelain A;Gerfin T;Humphreybaker R;Forro L .ALIGNED CARBON NANOTUBE FILMS - PRODUCTION AND OPTICAL AND ELECTRONIC PROPERTIES[J].Science,1995(5212):845-847.
[8]	Kastner J;Pichler T;Kuzmany H et al.Resonance Raman and Infrared Spectroscopy of Carbon Nanotubes[J].Chemical Physics Letters,1994,221(1-2):53-58.
[9]	O'Connell M J;Bachilo S M;Huffman C B et al.Band Gap Fluorescence from Individual Single-walled Carbon Nanotubes[J].Science,2002,297(5581):593-596.
[10]	Elizabeth C. Dickey;Craig A. Grimes;Mahaveer K. Jain;Keat G. Ong;Dali Qian;P. D. Kichambare;Rodney Andrews;David Jacques .Visible photoluminescence from ruthenium-doped multiwall carbon nanotubes[J].Applied physics letters,2001(24):4022-4024.
[11]	Rao A M;Richter E;Shunji Bandow et al.Diameter-Selective Raman Scattering from Vibrational Modes in Carbon Nanotubes[J].Science,1997,275:187-191.
[12]	C. Fantini;A. Jorio;M. Souza;M. S. Strano;M.S. Dresselhaus;M. A. Pimenta .Optical Transition Energies for Carbon Nanotubes from Resonant Raman Spectroscopy: Environment and Temperature Effects[J].Physical review letters,2004(14):147406.1-147406.4.
[13]	Wei J Q;Zhu H W;Wu D H .Carbon Nanotube Filaments in Household Light Bulbs[J].Applied Physics Letters,2004,84(24):4869-4871.
[14]	Jukwang P;Yongtae K;Jeounghoon Lee et al.Effect of Dye Dopants in Poly(methylphenyl silane) Light-emitting Devices[J].Current Applied Physics,2005,5(01):71-74.
[15]	孙海燕,赵宏康.碳纳米管吸收电磁波特性[J].光散射学报,2006(02):161-167.
[16]	L. Vivien;E. Anglaret;D. Riehl .Optical limiting properties of singlewall carbon nanotubes[J].Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter,2000(1/4):271-275.
[17]	Izard N;Menard C;Riehl D;Doris E;Mioskowski C;Anglaret E .Combination of carbon nanotubes and two-photon absorbers for broadband optical limiting[J].Chemical Physics Letters,2004(1/3):124-128.
[18]	Mintmire J W;Dunlap B I;White C T .Are Fullerene Tubules Metallic?[J].Physical Review Letters,1992,68(03):631-634.

上一张下一张

计量

下载量()
访问量()

作者相关

在本站搜索
王利光郭良王畅颜浩然
在百度学术搜索
王利光郭良王畅颜浩然
在万方数据库搜索
王利光郭良王畅颜浩然
在CNKI搜索
王利光郭良王畅颜浩然

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网