Raman active modes of single-wall boron nitride nanotubes inside carbon nanotubes

OAJ Materials and Devices Pub Date : 2018-10-28 DOI:10.23647/ca.md20182110

A. Rahmani

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Abstract

The structure of boron–nitride nanotubes (BNNTs) is very similar to that of CNTs, and they exhibit many similar physical and chemical properties. In particular, a single walled boron nitride nanotube (BNNT) and a single walled carbon nanotube (CNT) have been reported. The spectral moment’s method (SMM) was shown to be a powerful tool for determining vibrational spectra (infrared absorption, Raman scattering and inelastic neutron-scattering spectra) of harmonic systems. This method can be applied to very large systems, whatever the type of atomic forces, the spatial dimension, and structure of the material. The calculations of vibrational properties of BNNT@CNT double-walled hybrid nanostructures are performed in the framework of the force constants model, using the spectral moment's method (SMM). A Lennard–Jones potential is used to describe the van der Waals in-teractions between inner and outer tubes in hybrid systems. The calculation of the BNNT@CNT Raman active modes as a function of the diameter and chirality of the inner and outer tubes allows us to derive the diameter dependence of the wave number of the breathing-like modes, intermediate-like modes and tangential-like modes in a large diameter range. These predictions are useful to interpret the experimental data.

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碳纳米管内单壁氮化硼纳米管的拉曼活性模式

氮化硼纳米管(bnnt)的结构与碳纳米管非常相似，它们具有许多相似的物理和化学性质。特别是单壁氮化硼纳米管(BNNT)和单壁碳纳米管(CNT)已被报道。谱矩法(SMM)是测定谐波系统的振动光谱(红外吸收光谱、拉曼散射光谱和非弹性中子散射光谱)的有力工具。这种方法可以应用于非常大的系统，无论原子力的类型、空间维度和材料的结构如何。在力常数模型框架下，利用谱矩法(SMM)对BNNT@CNT双壁杂化纳米结构的振动特性进行了计算。用Lennard-Jones势来描述混合系统中内外管之间的范德华相互作用。通过计算BNNT@CNT拉曼主动模式作为内外管直径和手性的函数，我们可以推导出大直径范围内类呼吸模式、类中间模式和类切模的波数与直径的依赖关系。这些预测对解释实验数据是有用的。

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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OAJ Materials and Devices

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