M. J. Casavant scite author profile

Dense, thick films of aligned single wall carbon nanotubes and nanotube ropes have been produced by filtration/deposition from suspension in strong magnetic fields. Electrical resistivity exhibits moderate anisotropy with respect to the alignment axis, while the thermopower is the same when measured parallel or perpendicular to this axis. Both parameters have identical temperature dependencies in the two orientations. Thermal conductivity in the parallel direction exceeds 200 W/mK, within a decade of graphite.

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Controlled deposition of individual single-walled carbon nanotubes on chemically functionalized templates

Liu

Casavant

Cox

et al. 1999

Chemical Physics Letters

535

367

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Elastic strain of freely suspended single-wall carbon nanotube ropes

Walters¹,

Ericson²,

Casavant³

et al. 1999

629

355

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We have induced large elastic strains in ropes of single-wall carbon nanotubes, using an atomic force microscope in lateral force mode. Freely suspended ropes were observed to deform as elastic strings with tension proportional to elongation. Ropes were elastically deformed over >10 cycles without showing signs of plastic deformation. The maximum strain observed, 5.8±0.9%, gives a lower bound of 45±7 GPa for the tensile strength (specifically, yield stress) of single-wall nanotube ropes.

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M. J. Casavant

Electrical and thermal transport properties of magnetically aligned single wall carbon nanotube films

Controlled deposition of individual single-walled carbon nanotubes on chemically functionalized templates

Elastic strain of freely suspended single-wall carbon nanotube ropes

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