(Y0.82La0.18)3Fe5O12–x: Structure and Transport Properties

Shkerin, S. N.; Tolkacheva, A. S.; Naumov, S. V.; Gyrdasova, O. I.; Stepanov, A. E.

doi:10.15826/elmattech.2024.3.046

Please use this identifier to cite or link to this item: http://elar.urfu.ru/handle/10995/140324

Title:	(Y0.82La0.18)3Fe5O12–x: Structure and Transport Properties
Authors:	Shkerin, S. N. Tolkacheva, A. S. Naumov, S. V. Gyrdasova, O. I. Stepanov, A. E.
Issue Date:	2024
Publisher:	Уральский федеральный университет Ural Federal University
Citation:	(Y0.82La0.18)3Fe5O12–x: Structure and Transport Properties / S. Shkerin, A.Tolkacheva, S. Naumov, O. Gyrdasova, A. Stepanov // Electrochemical Materials and Technologies. — 2024. — Vol. 3. № 4. — № 20243046.
Abstract:	The nonstoichiometry in well-known rare-earth metal ferrite garnets is discussed in the concept of a mayenite analogue. Crystals are grown by floating zone method in different atmospheres. The content of oxygen during the growth process determines its crystal structure: only in an oxygen atmosphere (7 atm) is it possible to obtain a single-phase crystal. The phase decomposes with precipitation of iron oxide when the content of oxygen is lower. The decomposition is also induced by the replacement of Y with a large cation La in Y3Fe5O12. The fibers of the perovskite phase form along the crystal growth direction. The high mobility of anions and electron conductivity are shown by the method of isotopic equilibration with the gas phase on single-crystal garnet composites.
Keywords:	RARE-EARTH METAL FERRITE GARNET ANIONS CONDUCTIVITY ELECTRON CONDUCTIVITY SINGLE CRYSTAL
URI:	http://elar.urfu.ru/handle/10995/140324
RSCI ID:	https://www.elibrary.ru/item.asp?id=76782379
ISSN:	2949-0561
DOI:	10.15826/elmattech.2024.3.046
Sponsorship:	This work was supported by the project “Fundamental research of materials for solid oxide electrochemical devices” (122020100209-3). Part of the work devoted to the growth of single crystals and was partially supported by state assignment of Ministry of Science and Higher Education of the Russian Federation (theme “Spin” No. 122021000036-3). The materials attestation was carried out in the Shared Access Centers of IHTE UB RAS and M.N. Mikheev Institute of Metal Physics UB RAS. Authors thank Dr. N.M. Porotnikova and A.V. Khodimchuk for technical support and useful comments on the manuscript of this paper.
Origin:	Electrochemical Materials and Technologies. 2024. Vol. 3. № 4
Appears in Collections:	Electrochemical Materials and Technologies

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