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Length-dependent thermal conductivity of an individual single-wall carbon nanotube

by: Zhao L. Wang, Da W. Tang, Xiao B. Li, Xing H. Zheng, Wei G. Zhang, Li X. Zheng, Yuntian T. Zhu, Ai Z. Jin, Hai F. Yang, Chang Z. Gu
Applied Physics Letters, Vol. 91, No. 12. (2007), doi:10.1063/1.2779850  Key: citeulike:1802361

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Abstract

The thermal conductivity of single-wall carbon nanotubes (SWCNTs) is predicted to increase with length, but this has never been proved experimentally because of limitations in previous measurement methods. Here, the authors report the measurement of the length-dependent thermal conductivities of individual SWCNTs on a Si substrate using a four-pad 3 method. An increase in thermal conductivity with length was observed at room temperature, which is consistent with a theoretical prediction that considers higher order three-phonon processes. When SWCNTs are longer than the phonon mean path, they showed dissipative thermal transport. The observed increase of thermal conductivity with length makes SWCNTs ideal for thermal management. ©2007 American Institute of Physics


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