PANG Jin-shan, ZHANG Hai-ye, LI Li-ping, WU Qi-guang, LIN Jin. Use of amorphous carbon-encapsulated copper nanoparticles in thermal conducting fluids. New Carbon Mater., 2012, 27(2): 141-145.
Citation:
PANG Jin-shan, ZHANG Hai-ye, LI Li-ping, WU Qi-guang, LIN Jin. Use of amorphous carbon-encapsulated copper nanoparticles in thermal conducting fluids. New Carbon Mater., 2012, 27(2): 141-145.
PANG Jin-shan, ZHANG Hai-ye, LI Li-ping, WU Qi-guang, LIN Jin. Use of amorphous carbon-encapsulated copper nanoparticles in thermal conducting fluids. New Carbon Mater., 2012, 27(2): 141-145.
Citation:
PANG Jin-shan, ZHANG Hai-ye, LI Li-ping, WU Qi-guang, LIN Jin. Use of amorphous carbon-encapsulated copper nanoparticles in thermal conducting fluids. New Carbon Mater., 2012, 27(2): 141-145.
PANG Jin-shan (1974-)| male, Ph. D., engaged in the research the new carbon materials and nanometer amorphous materials. Fax: +86-750-6312075, E-mail: pjsgd@163.com
Carbon-encapsulated copper nanoparticles (CCNPs) were synthesized by a carbon arc discharge of a copper and carbon mixture and their oxidation resistance in oxygen, dispersion in water and thermal conductivity as fluids were investigated. Results indicated that amorphous carbon made the nanocopper particles more resistive to oxidation. The carboxyl and hydroxyl groups in the outer sphere of the carbon-encapsulated copper improve the dispersion of CCNPs in water after a chemical treatment with H2O2. The smaller the CCNP particle size, the better the thermal conductivity of the fluid.
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