单无序t形石墨烯纳米器件的电导率

IF 1.2 Q4 NANOSCIENCE & NANOTECHNOLOGY

international journal of nano dimension Pub Date : 2015-12-01 DOI:10.7508/IJND.2015.05.011

A. Jafari, M. Ghoranneviss, M. Hantehzadeh

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引用次数: 0

摘要

摘要:设计并研究了无序t形石墨烯纳米器件(TGN)。我们用兰道尔方法证明了TGN的本征输运性质。利用Landauer-Buttiker公式得到了电子通过系统的传输概率。用紧密结合模型研究了单无序对电导、电流和输运长度尺度的影响。结果表明，TGN的输运特性对无序位置有敏感的依赖性。然而，在小偏置电压下，电流与无序位置的关系不大，而与TGN的几何形状密切相关。当无序强度足够高时，系统中的平均自由程减小，并且发现平均自由程模式强烈依赖于无序位置。还可以观察到，电流基本上随着阀杆高度的增加而减小。我们发现锯齿形石墨烯纳米带可以作为金属引线，用于构建基于石墨烯纳米器件的电子器件。

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Conductance of T-shaped Graphene nanodevice with single disorder

AB STRACT: Disordered T-shaped graphene nanodevice (TGN) was designed and studied in this paper. We demonstrated the intrinsic transport properties of the TGN by using Landauer approach. Knowing the transmission probability of an electron the current through the system is obtained using Landauer-Buttiker formalism. The effects of single disorder on conductance, current and on the transport length scales are studied using tight-binding model. It is demonstrated that the transport property of the TGN depends sensitively on the disorder positions. However, the current slightly depends on the disorder sites, but strongly depends on the geometry of TGN under small bias voltage. The mean free path in the system is reduced when the strength of disorder is sufficiently high and the mean free path patterns are found to strongly depend on the disorder position. Also observe that the current basically decreases with the stem height increase. We have found that zigzag graphene nanoribbons can be used as metal leads when we build graphene nanodevice based electronic devices.

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来源期刊

international journal of nano dimension NANOSCIENCE & NANOTECHNOLOGY-

CiteScore

2.80

自引率

20.00%

发文量