MECHANISM OF FORMATION WATER MOLECULES AND CHEMICAL  BONDS IN LEPTOTHRIX MATERIALS

Mirzayeva, D.M.; Aghayeva, S.A.; Kaplina, S.P.; Slavov, L.; Gustova, M.V.; Tiep, N.V.; Tuan, P.L.; Maletskii, A.V.; Doroshkevich, A.S.; Thabethe, T.T.; Hasanov, K.M.; Kostov, L.K.; Mauyey, B.

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dc.contributor.author	Mirzayeva, D.M.
dc.contributor.author	Aghayeva, S.A.
dc.contributor.author	Kaplina, S.P.
dc.contributor.author	Slavov, L.
dc.contributor.author	Gustova, M.V.
dc.contributor.author	Tiep, N.V.
dc.contributor.author	Tuan, P.L.
dc.contributor.author	Maletskii, A.V.
dc.contributor.author	Doroshkevich, A.S.
dc.contributor.author	Thabethe, T.T.
dc.contributor.author	Hasanov, K.M.
dc.contributor.author	Kostov, L.K.
dc.contributor.author	Mauyey, B.
dc.date.accessioned	2024-12-27T10:46:42Z
dc.date.available	2024-12-27T10:46:42Z
dc.date.issued	2024
dc.identifier.other	doi.org/10.62476/apr61514
dc.identifier.uri	http://rep.enu.kz/handle/enu/20557
dc.description.abstract	The provided study involves investigating chemical interactions in Leptothrix biomaterial through infrared spectroscopy. The analysis explores variations in chemical relationships based on the nature of chemical bonds and biomaterial coordinates. The primary chemical bonds identified in the biomaterial are associated with Fe-O vibrations and resonances of [OH] functional groups. Additionally, the study presents model representations detailing the formation mechanism of water molecules within the Leptothrix matrix. Model calculations for a two-vacancy cluster defect structure in Fe2O3 and Fe3O4 reveal lifetimes of 180 ps and 174 ps, respectively.	ru
dc.language.iso	en	ru
dc.publisher	Advanced Physical Research	ru
dc.relation.ispartofseries	Vol.6, No.1, 2024, pp.5-14;
dc.title	MECHANISM OF FORMATION WATER MOLECULES AND CHEMICAL BONDS IN LEPTOTHRIX MATERIALS	ru
dc.type	Article	ru