Thermal conductivity of carbon nanotubes
Abstract
As the sizes of electronic and mechanical devices are decreased to the micron and nanometre level, it becomes particularly important to predict the thermal transport properties of the components. Using molecular level theories, such predictions are particularly important for modelling nano-electronic devices where scaling laws may change substantially but it is most difficult to accurately measure the properties. Hence, using the empirical bond order dependent force field, we have studied here the thermal conductivity of nanotubes' dependence on structure, defects and vacancies. The anisotropic character of the thermal conductivity of the graphite crystal is naturally reflected in the carbon nanotubes. We found that the carbon nanotubes have very high thermal conductivity comparable to diamond crystal and in-plane graphite sheet. In addition, nanotube bundles show very similar properties as graphite crystal in which dramatic difference in thermal conductivities along different crystal axis.
Additional Information
© Institute of Physics and IOP Publishing Limited 2000. Received 2 March 2000; Print publication: Issue 2 (June 2000) SPECIAL ISSUE FEATURING PAPERS FROM THE 7TH FORESIGHT CONFERENCE ON MOLECULAR NANOTECHNOLOGY This research was funded by a grant from DOE-ASCI. The facilities of the MSC are also supported by grants from NSF (ASC 92-17368 and CHE 91-12279), ARO (MURI), ARO (DURIP), ONR (DURIP), Chevron Petroleum Technology Co., Asahi Chemical, Owens-Corning, Exxon, Chevron Chemical Co., Asahi Glass, Chevron Research Technology Co., Avery Dennison, BP America, and the Beckman Institute.Attached Files
Published - CHEnano00.pdf
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- 1745
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- CaltechAUTHORS:CHEnano00
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2006-02-15Created from EPrint's datestamp field
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2022-07-12Created from EPrint's last_modified field