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Analysis and identification of platinum-containing nanoproducts of plasma-chemical synthesis in a gaseous medium

This article studies a nanoproduct that is formed by simultaneous plasma-chemical evaporation of graphite and platinum. It was shown that the resulting deposits under different synthesis conditions have a similar and well-defined structure and consist of two main parts (core and enclosing bark). The...

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Bibliographic Details
Published in:Physical Sciences and Technology 2019-07, Vol.6 (1), p.46-56
Main Authors: Schur, D.V., Zolotarenko, An.D., Zolotarenko, Al.D., Zolotarenko, E.P., Chimbai, M.V., Zolotarenko, A.D., Akhanova, N.Y., Sultangazina, M.
Format: Article
Language:English
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Summary:This article studies a nanoproduct that is formed by simultaneous plasma-chemical evaporation of graphite and platinum. It was shown that the resulting deposits under different synthesis conditions have a similar and well-defined structure and consist of two main parts (core and enclosing bark). The structure of both parts is investigated at the micro- and nanoscale levels. The products of synthesis and similar products obtained without the use of platinum has been compared. The distribution of platinum in synthesis products is studied. It is proved that the atoms of the platinum catalyst influence the process of formation of the deposit. Namely, it stimulates the formation of a deposit where the deposit core containing platinumcontaining bundles of CNT exists as an independent core that does not have a strong connection with the deposit shell. It is found that differential-thermal analysis of CNM in air by the methods of TG, DTG, DTA allows to reveal insignificant differences in the heat resistance of different carbon nanostructures, and thus it can be used for their identification. Such studies are of great importance for the synthesis of platinumcontaining catalysts for fuel cells and other chemical industries.
ISSN:2409-6121
2522-1361
DOI:10.26577/phst-2019-1-p9