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Название: Co-doping Effect on the Microstructural and Electrical Properties of Barium Stannate Materials
Авторы: Starostin, G. N.
Akopian, M. T.
Starostina, I. A.
Medvedev, D. A.
Дата публикации: 2024
Издатель: Уральский федеральный университет
Ural Federal University
Библиографическое описание: Co-doping Effect on the Microstructural and Electrical Properties of Barium Stannate Materials / G. Starostin, M. Akopian, I. Starostina, D. Medvedev // Electrochemical Materials and Technologies. — 2024. — Vol. 3. № 3 : Solid oxide materials as a basis of timely and promising technologies for energy production, conversion, and utilization. — № 20243037.
Аннотация: Proton-conducting perovskite oxides are of considerable interest to researchers as promising electrolytes for low- and intermediate solid oxide electrochemical cells. Therefore, designing new potential proton-conducting phases and improving the functional properties of known materials are of great importance from both fundamental and applied viewpoints. In the present work, BaSnO3 was selected as a reference proton-conducting system and then a co-doping strategy was employed to analyze ‘composition – structure – microstructure – transport properties’ relationships. To perform such an analysis, the properties of previously studied BaSn0.7M0.3O3–δ (M = In, Sc, Y) compounds were compared here to their co-doped derivatives, BaSn0.7In0.15Sc0.15O3–δ, BaSn0.7Y0.15Sc0.15O3–δ, and BaSn0.7In0.15Y0.15O3–δ. It is found that the type of dopant affects the materials sinterability, when more coarse-crystalline ceramics are formed with increasing the average ionic radii at the Sn-position. The introduction of Y3+-cations reduces both ionic and hole conductivities compared to single-doped with In3+ or Sc3+ barium stannate materials. However, simultaneous doping with In3+/Sc3+ cations minimizes the contribution of hole conductivity compared to that of Sc-doped barium stannate with the same acceptor dopant concentration.
Ключевые слова: BASNO3
PEROVSKITE
PROTON TRANSPORT
PCFCS
PCECS
CONDUCTIVITY
URI: http://elar.urfu.ru/handle/10995/138266
Идентификатор РИНЦ: https://elibrary.ru/item.asp?id=72192873
ISSN: 2949-0561
DOI: 10.15826/elmattech.2024.3.037
Сведения о поддержке: This work was prepared within the framework of the budgetary plans of the Institute of High Temperature Electrochemistry (IHTE) with the facilities of the IHTE Shared Access Centre “Composition of Compounds”, https://ihte.ru/?page_id=3142.
Источники: Electrochemical Materials and Technologies. 2024. Vol. 3. № 3 (Special Issue)
Располагается в коллекциях:Electrochemical Materials and Technologies

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