Titlebook: High Thermal Conductivity Materials; Subhash L. Shindé,Jitendra S. Goela Book 2006 Springer-Verlag New York 2006 boron.carbon.carbon nanot

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J.S. Goela,J.E. Graebneran trade lower precision and thus smaller area against the increased calculation effort. This paper develops a methodology to use these different options to find an optimal solution for each specific SPICE application scenario. It turns out that for regular IEEE-754 floating point formats a number f

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Lattice Thermal Conduction Mechanism in Solids,rmal-conductivity materials. The theory is extended to provide a discussion on the conductivity of solids in polycrystalline and low-dimensional forms. Thermal conductivity results of quantum wells, quantum wires, and different solid forms of carbon, .. diamond, graphite, graphene, nanotubes, and fullerenes, are presented and discussed.

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n nitride, and also the latest material like carbon nanotubeThedemandfore?cientthermalmanagementhasincreasedsubstantiallyover the last decade in every imaginable area, be it a formula 1 racing car suddenly braking to decelerate from 200 to 50 mph going around a sharp corner, a space shuttle entering

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High Lattice Thermal Conductivity Solids,cksalt, zincblende, diamond, and wurtzite structure compounds, graphite, silicon nitride and related materials, and icosahedral boron compounds. The thermal conductivity of wide-band-gap Group IV and Group III-V semiconductors is discussed, and the enhancement of lattice thermal conductivity by isotopic enrichment is considered.

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Unusually High Thermal Conductivity in Carbon Nanotubes,along the tube axis, possibly even surpassing that of other carbon-based materials such as diamond and graphite (in plane). In this chapter, we explore theoretical and experimental investigations for the thermal-transport properties of these materials.