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We have measured the temperature-dependent thermal conductivity (T) of crystalline ropes of single-walled carbon nanotubes from 350 K to 8 K. (T) decreases smoothly with decreasing temperature, and displays linear temperature dependence below 30 K. Comparison with electrical conductivity experiments indicates that the room-temperature thermal conductivity of a single nanotube may be comparable to that of diamond or in-plane graphite, while the ratio of thermal to electrical conductance for a given sample indicates that the thermal conductivity is dominated by phonons at all temperatures. Below 30 K, the linear temperature dependence and estimated magnitude of (T) imply an energy-independent phonon mean free path of 0. 5--1. 5.
Hone et al. (Fri,) studied this question.
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