Phonon Transport through Point Contacts between Graphitic Nanomaterials

Date Published
05/2014
Publication Type
Journal Article
Authors
DOI
10.1103/PhysRevLett.112.205901
Abstract

Measurements of thermal transport through contacts between individual multiwall carbon nanotubes show that, contrary to common expectation, the normalized contact thermal conductance per unit area depends linearly on the tube diameter. The result is corroborated with and extended to multilayer graphene nanoribbons through molecular dynamics simulations. Semiquantitative analyses show that these intriguing observations are consistent with an explanation based on an unexpectedly large phonon mean free path in the c-axis direction of graphite, phonon reflection at free surfaces, and phonon focusing in highly anisotropic graphitic materials.

Journal
Phys. Rev. Lett.
Volume
112
Year of Publication
2014
Number
20
Pagination
205901
Publisher
American Physical Society
Organizations
Research Areas
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