The present work carries out molecular dynamics simulations to compute the thermal conductivity of the borophene nanoribbon and the borophene nanotube using the Müller-Plathe approach.We investigate the thermal condu...The present work carries out molecular dynamics simulations to compute the thermal conductivity of the borophene nanoribbon and the borophene nanotube using the Müller-Plathe approach.We investigate the thermal conductivity of the armchair and zigzag borophenes,and show the strong anisotropic thermal conductivity property of borophene.We compare results of the borophene nanoribbon and the borophene nanotube,and find the thermal conductivity of the borophene is orientation dependent.The thermal conductivity of the borophene does not vary as changing the width of the borophene nanoribbon and the perimeter of the borophene nanotube.In addition,the thermal conductivity of the borophene is not sensitive to the applied strains and the background temperatures.展开更多
基金The authors would like to thank the support by the National NSF of China(Grant Nos.11902263,11572251 and 11872309)Shaanxi Science Foundation(Grant No.2019JQ-623)+3 种基金the Fundamental Research Funds for the Central Universities(Grant Nos.310201906zy004 and 3102017jc01003)Zhang Y.was supported in part by the PECASE award N00014-16-1-2254(USA)NSF CAREER Award OCI-1149591(USA)NSF USA grant CBET-1804929.
文摘The present work carries out molecular dynamics simulations to compute the thermal conductivity of the borophene nanoribbon and the borophene nanotube using the Müller-Plathe approach.We investigate the thermal conductivity of the armchair and zigzag borophenes,and show the strong anisotropic thermal conductivity property of borophene.We compare results of the borophene nanoribbon and the borophene nanotube,and find the thermal conductivity of the borophene is orientation dependent.The thermal conductivity of the borophene does not vary as changing the width of the borophene nanoribbon and the perimeter of the borophene nanotube.In addition,the thermal conductivity of the borophene is not sensitive to the applied strains and the background temperatures.
