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Anharmonicity induced thermal modulation in stressed graphene 被引量:2
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作者 Jian Jun Jiang wei cheng fu +1 位作者 Ji Ge Chen Hong Zhao 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2017年第7期48-52,共5页
Thermal properties are essentially decided by atomic geometry and thus stress is the most direct way for manipulating. In this paper, we investigate stress modulation of thermal conductivity of graphene by molecular d... Thermal properties are essentially decided by atomic geometry and thus stress is the most direct way for manipulating. In this paper, we investigate stress modulation of thermal conductivity of graphene by molecular dynamics simulations and discuss the underlying microscopic mechanism. It is found that thermal conductivity of ftexural-free graphene increases with compression and decreases with strain, while thermal conductivity of flexural-included graphene decreases with both compression and strain. Such difference in thermal behavior originates from the changes in the anharmonicity of the interatomic potential, where the wrinkle scattering is responsible for the thermal conductivity diminishment in flexural-included graphene under strain. By comparing the results obtained from the Tersoff and AIREBO potentials, it is revealed that the degree of the symmetry of interatomic potential determines the thermal conductivity variation of graphene. Our results indicate that the symmetry of interatomic potential should be taken into careful consideration in constructing the lattice model of graphene. 展开更多
关键词 GRAPHENE heat conduction thermal modulation stressed graphene ANHARMONICITY
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