Electronics Properties of Single-Walled Twisted Carbon Nanotubes

Q. Fu, Da-peng Hao, Xiao-mi Yan, Dao-wei He, Zhi-shun Chen, Li-guang Wang, Terence K.S. W
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引用次数: 1

Abstract

Electronic properties are calculated and simulited by using density functional theory based on the nonequilibrium Green's function when a zigzag single-wall carbon nanotube (SCNTs) is twisted. We found that the twist of the single-wall carbon nanotube decreases their transmission function in certain energy ranges but some peaks are higher than unit despite twisting strongly affects the electronic structure of SCNT. The transmission peaks reduces gradually with twisting angle increasing. In addition, SCNT develops a Fermi-level which initially scales linearly with twisting angle and then reaches a constant value, the energy band gaps decrease with the twisting angles. All results indicate that SCNTs have lower electronic transport performance when the twisting angle increases, especially for large twisting angles.
单壁扭曲碳纳米管的电子学性质
利用基于非平衡格林函数的密度泛函理论,计算和模拟了锯齿形单壁碳纳米管扭曲时的电子特性。结果表明,单壁碳纳米管的扭曲在一定能量范围内降低了碳纳米管的透射函数,但扭曲对碳纳米管的电子结构有较大的影响。随着扭角的增大,传动峰值逐渐降低。此外,SCNT发展出一个费米能级,该能级最初随扭曲角度线性扩展,然后达到恒定值,能带隙随扭曲角度减小。结果表明,纳米碳管的电子输运性能随着扭转角的增大而降低,尤其是在扭转角较大的情况下。
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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