52
References
[1] S. Iijima, "Helical microtubules Ofgraphitic carbon,” Nature, vol. 354, Nov.
1991, pp. 56-58.
[2] W.A. de Heer, A. Chatelain, and D. Ugarte, "A Carbon Nanotube Field-Emission
Electron Source," Science, vol. 270, Nov. 1995, pp. 1179-1180.
[3] C. Niu, E.K. Sichel, R. Hoch, D. Moy, and H. Tennent, "High power
electrochemical capacitors based on carbon nanotube electrodes," Applied
Physics Letters, vol. 70,1997, p. 1480.
[4] C. Liu, Y.Y. Fan, M. Liu, H.T. Cong, H.M. Cheng, and M.S. Dresselhaus, "Hydrogen
Storage in Single-Walled Carbon Nanotubes at Room Temperature," Science,
vol. 286, Nov. 1999, pp. 1127-1129.
[5] E.S. Snow, F.K. Perkins, E.J. Houser, S.C. Badescu, and T.L. Reinecke, "Chemical
Detection with a Single-Walled Carbon Nanotube Capacitor," Science, vol. 307,
Mar. 2005, pp. 1942-1945.
[6] K. Kordas, G. T6th, P. Moilanen, M. Kumpumaki, J. Vahakangas, A. Uusimaki, R.
Vajtai, and P.M. Ajayan, "Chip cooling with integrated carbon nanotube microfin
architectures," Applied Physics Letters, vol. 90, 2007, p. 123105.
[7] Y. Shirai, A.J. Osgood, Y. Zhao, K.F. Kelly, and j.M. Tour, "Directional Control in
Thermally Driven Single-Molecule Nanocars," Nano Letters, vol. 5, Nov. 2005,
pp. 2330-2334.
[8] S. Berber, Y. Kwon, and D. Tomanek, "Unusually High Thermal Conductivity of
Carbon Nanotubes," Physical Review Letters, vol. 84, May. 2000, p. 4613.
[9] C.T. White and T.N. Todorov, “Carbon nanotubes as long ballistic conductors,”
Nature, vol. 393, May. 1998, pp. 240-242.
[10] M.M.J. Treacy, T.W. Ebbesen, and J.M. Gibson, "Exceptionallyhigh Young's
modulus observed for individual carbon nanotubes," Nature, vol. 381, Jun.
1996, pp. 678-680.
[11] A.R. Harutyunyan, G. Chen, T.M. Paronyan, E.M. Pigos, 0.A. Kuznetsov, K.
Hewaparakrama, S.M. Kim, D. Zakharov, E.A. Stach, and G.U. Sumanasekera,