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Thermal Transport in MWNT Sheet: Extremely High Radiation From The Carbon Nanotube Surface

Published online by Cambridge University Press:  01 February 2011

Ali E. Aliev ,
C. Guthy ,
M. Zhang ,
A. A. Zakhidov ,
J. E. Fischer  and
R. H. Baughman
Ali E. Aliev
Affiliation:
Ali.Aliev@utdallas.edu, University of Texas at Dallas, NanoTech Institute, 7825 Maccalu blvd., 1506, Dallas, TX, 75252, United States, 9728836543, 9728836529
C. Guthy
Affiliation:
guthyc@seas.upenn.edu, University of Pennsylvania, Dept. of Materials Science and Engineering, Philadelphia, PA, 19104, United States
M. Zhang
Affiliation:
mzhang@utdallas.edu, University of Texas at Dallas, NanoTech Institute, Richardson, TX, 75083, United States
A. A. Zakhidov
Affiliation:
zakhidov@utdallas.edu, University of Texas at Dallas, NanoTech Institute, Richardson, TX, 75083, United States
J. E. Fischer
Affiliation:
fischer@seas.upenn.edu, University of Pennsylvania, Dept. of Materials Science and Engineering, Philadelphia, PA, 19104, United States
R. H. Baughman
Affiliation:
ray.baughman@utdallas.edu, University of Texas at Dallas, NanoTech Institute, Richardson, TX, 75083, United States
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Abstract

Laser flash and self-heating 3ω techniques were employed to determine the anisotropic thermal conductivity and thermal diffusivity of highly oriented free standing multiwalled carbon nanotube (MWNT) sheet drawn from a sidewall of a MWNT forest that was grown by chemical-vapor deposition. The thermal conductivity and the thermal diffusivity along the alignment are 50±5 W/m·K and 45±5 mm2/s, respectively, and are mostly limited by intrinsic defects of individual nanotubes and phonon-phonon interaction within bundles which form the supporting matrix of the MWNT sheet. The long tube-tube overlapping substantially decreases the electrical and thermal interconnection resistances which are usually dominate in randomly deposited mat-like nanotube assemblies. The extremely large surface area of the MWNT sheet leads to excessive heat radiation that dose not allow to transfer the heat energy by means of phonons to distances > 2 mm.

Keywords

nanostructurethermal conductivityradiation effects
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 963: Symposium Q – Nanowires and Carbon Nanotubes – Science and Applications , 2006 , 0963-Q16-02
Copyright
Copyright © Materials Research Society 2007

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References

REFERENCES

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