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浓硝酸处理前后多壁碳纳米管的荧光特性研究
引用本文:孙文秀,黄智鹏,张鹭,朱静. 浓硝酸处理前后多壁碳纳米管的荧光特性研究[J]. 光谱学与光谱分析, 2005, 25(1): 10-12
作者姓名:孙文秀  黄智鹏  张鹭  朱静
作者单位:清华大学材料科学与工程研究院电镜实验室,北京,100084;清华大学材料科学与工程研究院电镜实验室,北京,100084;清华大学材料科学与工程研究院电镜实验室,北京,100084;清华大学材料科学与工程研究院电镜实验室,北京,100084
基金项目:国家自然科学基金(041307072),清华大学“985”计划资助项目
摘    要:对浓硝酸处理前后多壁碳纳米管的荧光特性进行了研究,结果发现多壁碳纳米管在浓硝酸处理前后都能产生荧光;与浓硝酸处理前相比,浓硝酸处理后的多壁碳纳米管的荧光有所增强,且荧光谱峰向短波长方向发生蓝移。碳纳米管产生的荧光与碳纳米管在其缺陷处捕获激发光的能量以及最低空轨道和最高占有轨道之间的能隙有关。多壁碳纳米管在浓硝酸处理前后都有缺陷,因而都能在其缺陷处捕获激发光能量而产生荧光;浓硝酸处理引起多壁碳纳米管的缺陷增多、捕获激发光能量增加因而荧光也随之增强。碳纳米管的最低空轨道和最高占有轨道之间的能隙随其长度减小而增大,浓硝酸处理引起多壁碳纳米管被削短导致其最低空轨道和最高占有轨道之间的能隙增大,因而引起多壁碳纳米管的荧光谱峰向短波方向蓝移。

关 键 词:碳纳米管  浓硝酸  荧光光谱  红外光谱  拉曼光谱  缺陷
文章编号:1000-0593(2005)01-0010-03
修稿时间:2003-04-26

Studies on Fluorescent Properties of Multi-Walled Carbon Nanotubes before and after Concentrated Nitric Acid Treatment
SUN Wen-xiu,HUANG Zhi-peng,ZHANG Lu,ZHU Jing. Studies on Fluorescent Properties of Multi-Walled Carbon Nanotubes before and after Concentrated Nitric Acid Treatment[J]. Spectroscopy and Spectral Analysis, 2005, 25(1): 10-12
Authors:SUN Wen-xiu  HUANG Zhi-peng  ZHANG Lu  ZHU Jing
Affiliation:Electron Microscopy Laboratory, School of Materials Science and Engineering, Tsinghua University, Beijing 100084, China.
Abstract:Fluorescent properties of multi-walled carbon nanotubes (MWNTs) before and after concentrated nitric acid treatment were studied. The results show that both multi-walled carbon nanotubes (MWNTs) and treated multi-walled carbon nanotubes (t-MWNTs) could emit fluorescence; compared with MWNTs, fluorescence from t-MWNTs is stronger and fluorescent emission peak from ~t-MWNTs blue shifts slightly to short-wavelength. Luminescence from MWNTs could be related to the trapping of excitation energy at defect sites and the energy bandgap between the lowest unoccupied molecular ~orbital (LUMO) and the highest occupied molecular ~orbital (HOMO). Treating MWNTs with concentrated nitric acid could introduce more defects on MWNTs and make MWTNs trap more excitation energy, leading to a fluorescence enhancement of t-MWTNs; in addition, the energy bandgap between LUMO and HOMO increases with length decreasing of MWNT, and the shortening of MWNT caused by concentrated nitric acid treatment could make energy bandgap between LUMO and HOMO increase, resulting in a slight blue shift of fluorescent emission peak of t-MWTNs to short wavelength.
Keywords:Carbon nanotubes  Concentrated nitric acid  Fluorescence spectra  Infra red spectra  Raman spectrum  Defect  
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