用DFT方法研究卤素取代对碳纳米管分子电子和光谱性质的影响

R. Mohammad, Sabeeh Jassim, L. Ahmed
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引用次数: 1

摘要

在本研究中,使用了由F、Cl和Br原子取代前后呈锯齿状(4,0)的碳纳米管(CNTs)作为基于Quantum Espresso包DFT过程的基本计算机模型。结果表明,该方法可以计算出电子结构、带隙、总能量、FTIR谱、拉曼谱和退极化谱。模拟结果发现,在纳米管上作为给体基团的杂质原子尺寸从F增加到Br,使能隙从0.959 eV减少到0.674 eV,电离势从6.088 eV减少到5.729 eV,电子亲和从5.129 eV减少到5.054 eV,稳定能从5.609 eV减少到5.392 eV。因此,这些取代的化合物具有较高的催化活性,在太阳光谱中具有较宽的吸收带,其顺序为:Br+CNTs > Cl+CNTs > F+CNTs > CNT。这种特性将为太阳能电池和光电器件提供更好的输出。从F到Br,随着杂质原子尺寸的增加,HOMO、LUMO和总能量的增加变化最大,带隙减小,熵值因随机性的提高而升高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Halogens Substitution Effects on Electronic and Spectral Properties of Carbon Nanotube Molecules studying with the DFT method
The carbon nanotubes (CNTs) in a zigzag (4, 0) shape before and after substituted with F, Cl, and Br atoms were used as a basic computer model depending on the Quantum Espresso package DFT process ( in the present work. This method demonstrated that the electronic structure, bandgap, total energy, FTIR spectrum, Raman spectrum, and depolarization spectrum can all being calculated. The simulated results are discovered that the increase in impurity atom size from F to Br as donor groups on nanotubes reduce the energy gaps from 0.959 eV to 0.674 eV, the ionization potentials from 6.088 eV to 5.729 eV, the electron affinities from 5.129 eV to 5.054 eV, and the firm energies from 5.609 eV to 5.392 eV. As a result, these substituted compounds have a high activity to act as a catalyst with broad absorption bands of the solar spectrum in the following order: Br+CNTs > Cl+CNTs > F+CNTs > CNT. This behavior will provide a better output for the solar cells and photovoltaic devices. The increment in HOMO, LUMO, and total energy magnitudes with increasing the impurity atom size from F to Br is given maximum changes, decreases band gaps, and elevated entropy values because of elevating in random.
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