Thermoelectric properties of disordered graphene antidot devices

2012 15th International Workshop on Computational Electronics Pub Date : 2012-05-22 DOI:10.1109/IWCE.2012.6242835
T. Gunst, Jing-Tao Lu, T. Markussen, A. Jauho, M. Brandbyge
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引用次数: 2

Abstract

We calculate the electronic and thermal transport properties of devices based on finite graphene antidot lattices (GALs) connected to perfect graphene leads. We use an atomistic approach based on the π-tight-binding model, the Brenner potential, and employing recursive Green's functions. We consider the effect of random disorder on the electronic and thermal transport properties, and examine the potential gain of thermoelectric merit by tailoring of the disorder. We propose several routes to optimize the transport properties of the GAL systems. Finally, we illustrate how quantum thermal transport can be addressed by molecular dynamics simulations, and compare to the Green's function results for the GAL systems in the ballistic limit.
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无序石墨烯反点器件的热电性质
我们计算了基于有限石墨烯反点晶格(GALs)连接到完美石墨烯引线的器件的电子和热输运性质。我们使用基于π紧密结合模型、Brenner势和递归格林函数的原子方法。我们考虑了随机无序对电子和热输运性质的影响,并通过调整无序考察了热电性能的潜在增益。我们提出了几种途径来优化GAL系统的输运特性。最后,我们说明了如何通过分子动力学模拟来解决量子热输运问题,并与弹道极限下GAL系统的格林函数结果进行了比较。
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2012 15th International Workshop on Computational Electronics
2012 15th International Workshop on Computational Electronics
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