热电应用中石墨烯纳米带的纳米结构

2011 International Conference on Simulation of Semiconductor Processes and Devices Pub Date : 2011-10-06 DOI:10.1109/SISPAD.2011.6034960

F. Mazzamuto, J. Saint-Martin, V. Nguyen, Y. Apertet, C. Chassat, P. Dollfus

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引用次数: 2

摘要

在非平衡格林函数形式下进行了电子和声子输运的原子模拟，以分析石墨烯纳米带(GNRs)的热学和电学性质。我们预测，通过适当的图形化gnr，可以实现热电性能的强烈增强。通过对边缘取向效应的研究，我们提出了一种既能降低热传导率又能保持高电子传导率和热功率的策略。电子的共振隧穿效应在由交替的锯齿形和扶手形截面组成的混合gnr和有空位的完美gnr中得到了证明。结合这些影响，优化结构能够提供高热电系数ZT在室温下超过单位的优点

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Nanostructuration of Graphene Nanoribbons for thermoelectric applications

Atomistic simulations of electron and phonon transport are performed within the non-equilibrium Green's function formalism to analyze the thermal and electrical properties of graphene nanoribbons (GNRs). We predict that by patterning GNRs properly, a strong enhancement of thermoelectric properties can be achieved. From the study of edge orientation effects, we propose a strategy likely to degrade the thermal conductance while retaining high electronic conductance and thermopower. An effect of resonant tunneling of electrons is evidenced in mixed GNRs consisting in alternate zigzag and armchair sections or in perfect GNRs with vacancies. Combining these effects, an optimized structure able to provide a high thermoelectric factor of merit ZT exceeding unity at room temperature is demonstrated

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2011 International Conference on Simulation of Semiconductor Processes and Devices

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