In this paper, we study the thermal rectification in asymmetric U-shaped
graphene flakes by using nonequilibrium molecular dynamics simulations. The
graphene flakes are composed by a beam and two arms. It is found that the heat
flux runs preferentially from the wide arm to the narrow arm which indicates a
strong rectification effect. The dependence of the rectification ratio upon the
heat flux, the length and the width of the beam, the length and width of the
two arms are studied. The result suggests a possible route to manage heat
dissipation in U-shaped graphene based nanoelectronic devices.Comment: 3 pages, 4 figure

Alaghemandi M

Brenner D W

Cheh J

Hong Zhao

Jiang J W

Jigger Cheh

Xu Z

Zhang Z Z

Journal of Statistical Mechanics Theory and Experiment

English

arXiv

Crossref

Thermal rectification in asymmetric U-shaped graphene flakes

National Natural Science Foundation of China [10775115, 10925525]In this paper, we study the thermal rectification in asymmetric U-shaped graphene flakes by nonequilibrium molecular dynamics simulations. The graphene flakes are composed of a beam and two asymmetric arms. It is found that the heat flux runs preferentially from the wide arm to the narrow arm, which indicates a strong rectification effect. The dependence of the rectification ratio upon the heat flux, the length and the width of the beam and the two arms is studied. It shows that the two asymmetric arms play the central role in thermal rectification and a proper design is needed to obtain the maximum rectification ratio. The result suggests a possible route to manage the heat dissipation in U-shaped graphene based nanoelectronic devices that have recently been fabricated

Cheh, Jigger

Zhao, Hong

赵鸿

Xiamen University Institutional Repository

Thermal rectification in asymmetric U-shaped graphene flakes

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Xiamen University Institutional Repository