The thermomutability of single-walled carbon nanotubes by constrained mechanical folding
CA Lin and HT Wang and W Yang, NANOTECHNOLOGY, 21, 365708 (2010).
DOI: 10.1088/0957-4484/21/36/365708
The thermomutability of single-walled carbon nanotubes (SWCNT) with an ultrahigh aspect ratio has been systematically investigated by molecular dynamics simulations. A constraining matrix is necessary to transform the tube-long Euler instability to a localized cross-section flattening which can effectively hinder phonon transportation at the throttling kinks. A thermal conductivity reduction of similar to 50% was obtained for a 100 nm (5, 5) SWCNT when embedded in a compliant matrix (E similar to 0.4 GPa). An even larger reduction (similar to 80%) can be achieved for a stiffer matrix (40 GPa). The thermal conductivity decreases abruptly at the buckling portion which further develops into folding and connected spirals. The constrained mechanical folding is highly desirable for realizing ultra-sensitive thermal sensors or switches.
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