Electrophysical properties of composite films based on graphene nanoplatelets covered by metal nanoparticles

Kukhta, A. V.; Misevich, A. V.; Pochtenny, A. E.

Please use this identifier to cite or link to this item: https://elib.belstu.by/handle/123456789/67346

Title:	Electrophysical properties of composite films based on graphene nanoplatelets covered by metal nanoparticles
Authors:	Kukhta, A. V. Misevich, A. V. Pochtenny, A. E.
Keywords:	composite films композитные пленки electrical properties электрофизические свойства графен graphene thin films тонкие пленки
Issue Date:	2017
Publisher:	World Scientific Publishing Co
Citation:	Kukhta, A. V. Electrophysical properties of composite films based on graphene nanoplatelets covered by metal nanoparticles / A. V. Kukhta, A. V. Misevich, A. E. Pochtenny // Physics, Chemistry and Applications of Nanostructures : proceedings of International Conference Nanomeeting, Minsk, 30 мay – 02 june 2017 year. - Minsk, 2017. - P. 198-300.
Abstract:	DC conductivity study showed that thin films based on graphene and graphene containing copper or cobalt nanoparticles, have metallic type of conductivity, but thin films consisting of graphene with magnetite nanoparticles, have semiconductor conductivity. It was found that formation of graphene-Fe[3]O[4] film in magnetic field results in the dielectric-metal transition that can be caused by the spin effects in graphene. It was shown that adsorbed oxygen in graphene based thin films acts as scattering centers decreasing mobility of the charge carriers and conductivity as a consequence.
URI:	https://elib.belstu.by/handle/123456789/67346
Appears in Collections:	Статьи в республиканских изданиях

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