We grow dense carbon nanotube forests at 450 degrees C on Cu support using Co/Al/Mo multilayer catalyst. As a partial barrier layer for the diffusion of Co into Mo, we apply very thin Al layer with the nominal thickness of 0.50 nm between Co and Mo. This Al layer plays an important role in the growth of dense CNT forests, partially preventing the CoMo interaction. The forests have an average height of similar to 300 nm and a mass density of 1.2 g cm(-3) with tubes exhibiting extremely narrow inner spacing. An ohmic behavior is confirmed between the forest and Cu support with the lowest resistance of similar to 8 k Omega. The forest shows a high thermal effusivity of 1840 J s0.5 m(-2) K-1, and a thermal conductivity of 4.0 J s(-1) m(-1) K-1, suggesting that these forests are useful for heat dissipation devices.
Low-Temperature Growth of Carbon Nanotube Forests Consisting of Tubes with Narrow Inner Spacing Using Co/Al/Mo Catalyst on Conductive Supports
Bhardwaj Sunil;Cepek Cinzia;
2015
Abstract
We grow dense carbon nanotube forests at 450 degrees C on Cu support using Co/Al/Mo multilayer catalyst. As a partial barrier layer for the diffusion of Co into Mo, we apply very thin Al layer with the nominal thickness of 0.50 nm between Co and Mo. This Al layer plays an important role in the growth of dense CNT forests, partially preventing the CoMo interaction. The forests have an average height of similar to 300 nm and a mass density of 1.2 g cm(-3) with tubes exhibiting extremely narrow inner spacing. An ohmic behavior is confirmed between the forest and Cu support with the lowest resistance of similar to 8 k Omega. The forest shows a high thermal effusivity of 1840 J s0.5 m(-2) K-1, and a thermal conductivity of 4.0 J s(-1) m(-1) K-1, suggesting that these forests are useful for heat dissipation devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
