IR Characterization of Tip-Functionalized Single-Wall Carbon Nanotubes

T. Kar, S. Patnaik, H. Bettinger, A. Roy, S. Scheiner
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引用次数: 21

Abstract

Vibrational frequencies of functionalized groups (−COOH, −CONH2, and −COOCH3) of tip-modified single-wall carbon nanotubes are estimated using density functional theory. Both metallic (5,5) and semiconducting (10,0) nanotubes are considered with single and multiple functional groups at their tip. Several differences in frequency and intensity of the characteristic C═O band between (5,5) and (10,0) tubes are observed, which might help experimentalists to identify different tubes. For example, (5,5) tubes exhibit higher C═O frequencies than (10,0) tubes for all groups, and these bands are more intense in the latter tubes. These differences persist within a narrow range of diameter. To understand the effect of nanotubes on the spectra, fragment models containing parts of tube attached to functional groups are also studied. Such a computationally inexpensive model (compared to full tube) faithfully reproduces IR spectra and may be used for a wide range of end-modified tubes.
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尖端功能化单壁碳纳米管的红外表征
利用密度泛函理论估计了尖端修饰单壁碳纳米管的官能团(- COOH, - CONH2和- COOCH3)的振动频率。金属纳米管(5,5)和半导体纳米管(10,0)都被认为在其尖端具有单个和多个官能团。观察到(5,5)和(10,0)管之间特征C = O波段的频率和强度的几个差异,这可能有助于实验人员识别不同的管。例如,(5,5)管在所有基团中都比(10,0)管表现出更高的C = O频率,并且在后一组管中这些波段更强。这些差异在一个狭窄的直径范围内持续存在。为了了解纳米管对光谱的影响,我们还研究了纳米管部分附在官能团上的片段模型。这种计算成本低廉的模型(与全管相比)忠实地再现了红外光谱,并可用于广泛的末端修饰管。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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