Authors | D.G. Muratov1,2 , L.V. Kozhitov1 , S.G. Emelyanov3 , E.V. Yakushko1 , M.F. Bulatov4 |
Affiliations | 1 National University of Science and Technology «MISiS», 4, Leninsky Pr., 119049 Moscow, Russia 2 A.V. Topchiev Institute of Petrochemical Synthesis, RAS, 29, Leninsky Pr., 119991 Moscow, Russia 3 South-West State University, 94, 50 let Oktyabrya St., 305040 Kursk, Russia 4 Federal State Research and Design Institute of Rare Metal Industry, 5-1, B. Tolmachevsky Lane, Moscow, Russia |
Е-mail | m5519969@ya.ru |
Issue | Volume 7, Year 2015, Number 4 |
Dates | Received 01 October 2015; published online 24 December 2015 |
Citation | D.G. Muratov, L.V. Kozhitov, S.G. Emelyanov, et al., J. Nano- Electron. Phys. 7 No 4, 04071 (2015) |
DOI | |
PACS Number(s) | 75.75.Fk, 78.67.Bf |
Keywords | Metal-carbon nanocomposites (6) , Nanoparticles NiCo (2) , Magnetic properties of nanoparticles (2) , IR-heating (3) . |
Annotation | By method of IR-pyrolysis the precursor of polyacrylonitrile and compounds of cobalt and nickel metalcarbon nanocomposites were obtained, representing nanoparticles of alloy NiCo, dispersed in nanocrystalline carbon matrix. NiCo / C nanocomposites are ferromagnets. Magnetization and the coercive force depends on the size and composition of the alloy nanoparticles NiCo. The average size of metal nanoparticles is determined by the synthesis temperature and in range of 350-800 °C is 10-80 nm, respectively. According to the results of TEM it was detected that with increasing synthesis temperature the maximum synthesis of nanoparticles size distribution shifts to larger sizes. The magnetization and coercivity depend on the size and composition of the nanoparticles of alloy NiCo. With increasing synthesis temperature from 350 to 800 °C the magnetization increases from 0.055 to 17 A·m2/kg. |
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