Thermal conductivity and thermal rectification in H-terminated graphene nanoribbons

Fan Haibiao; Deng Lin; Yuan Xiaoming; Guo Juan; Li Xialong; Yang Ping

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Thermal conductivity and thermal rectification in H-terminated graphene nanoribbons

机译：H端石墨烯纳米带的热导率和热精馏

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The purpose of this article is to provide a systematic evaluation to examine characteristics of the thermal conductivity and thermal rectification of H-terminated graphene nanoribbons (HGNRs) with L-pristine/LH-terminated = 1. The results show that HGNR thermal conductivities increase in both directions across the entire temperature range tested. Simultaneously, thermal rectification of HGNRs at various temperatures is detected. We found that with increasing temperature the thermal rectification has a gradual decreasing tendency. Furthermore, the overlap of power spectra was calculated to elucidate the underlying mechanism of thermal rectification. This work indicates a possible route to achieve thermal rectification for 2D materials by hydrogenation engineering.

机译：本文的目的是提供系统评价，以检查L-精氨酸/ LH端基= 1的H端石墨烯纳米带（HGNR）的热导率和热精馏特性。结果表明HGNR的热导率在在整个测试温度范围内的两个方向。同时，检测到各种温度下的HGNR的热精馏。我们发现随着温度的升高，热精馏具有逐渐降低的趋势。此外，计算了功率谱的重叠以阐明热整流的潜在机理。这项工作表明了通过氢化工程实现2D材料热精馏的可能途径。

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《RSC Advances》 |2015年第48期|共5页
作者
Fan Haibiao; Deng Lin; Yuan Xiaoming; Guo Juan; Li Xialong; Yang Ping;
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中图分类化学;
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1. Thermal conductivity and thermal rectification in H-terminated graphene nanoribbons [J] . Fan Haibiao, Deng Lin, Yuan Xiaoming, RSC Advances . 2015,第48期

机译：H端石墨烯纳米带的热导率和热精馏
2. Thermal Conductivity and Thermal Rectification in Graphene Nanoribbons: A Molecular Dynamics Study [J] . Hu JN, Ruan XL, Chen YP Nano letters . 2009,第7期

机译：石墨烯纳米带的热导率和热精馏：分子动力学研究
3. Interfacial thermal conductance limit and thermal rectification across vertical carbon nanotube/graphene nanoribbon-silicon interfaces [J] . Vallabhaneni Ajit K., Qiu Bo, Hu Jiuning, Journal of Applied Physics . 2013,第6期

机译：垂直碳纳米管/石墨烯纳米带-硅界面的界面热导极限和热精馏
4. ROLE OF EDGE CHIRALITY AND ISOTOPE DOPING IN THERMAL TRANSPORT AND THERMAL RECTIFICATION IN GRAPHENE NANORIBBONS [C] . Yan Wang, Xiulin Ruan ASME international mechanical engineering congress and exposition;IMECE2011 . 2012

机译：边缘手性和同位素掺杂在石墨烯纳米碳的热输运和热校正中的作用
5. Nanoscale studies of thermal transport: R-matrix theory and thermal transport in strained graphene nanoribbons [D] . Gunawardana, K.G. S. H. 2011

机译：传热的纳米尺度研究：R-矩阵理论和应变石墨烯纳米带中的传热
6. Effect of Tensile Strain on Thermal Conductivity in Monolayer Graphene Nanoribbons: A Molecular Dynamics Study [O] . Jianwei Zhang, Xiaodong He, Lin Yang, 2013

机译：拉伸应变对单层石墨烯纳米带导热系数的影响：分子动力学研究
7. Thermal Conductivity and Thermal Rectification in Graphene Nanoribbons: a Molecular Dynamics Study [O] . Hu, Jiuning, Ruan, Xiulin, Chen, Yong P. 2010

机译：石墨烯纳米带的热导率和热整流：分子动力学研究
8. Interfacial Thermal Conductance Limit and Thermal Rectification Across Vertical Carbon Nanotube/Graphene Nanoribbon-Silicon Interfaces. [R] . Vallabhaneni, A. K., Qiu, B., Hu, J., 2013

机译：垂直碳纳米管/石墨烯纳米带 - 硅界面的界面热导限制和热整流。

Thermal conductivity and thermal rectification in H-terminated graphene nanoribbons

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