Oxygen Vacancy Formation and Migration within the Antiphase Boundaries in Lanthanum Scandate-Based Oxides: Computational Study.

Mastrikov, Yuri A; Gryaznov, Denis; Sokolov, Maksim N; Zvejnieks, Guntars; Popov, Anatoli I; Eglitis, Roberts I; Kotomin, Eugene A; Ananyev, Maxim V

Mastrikov, Yuri A; Gryaznov, Denis; Sokolov, Maksim N; Zvejnieks, Guntars; Popov, Anatoli I; Eglitis, Roberts I; Kotomin, Eugene A; Ananyev, Maxim V.

Afiliação

Mastrikov YA; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Gryaznov D; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Sokolov MN; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Zvejnieks G; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Popov AI; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Eglitis RI; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Kotomin EA; Institute of Solid State physics, University of Latvia, Kengaraga 8, LV-1063 Riga, Latvia.
Ananyev MV; Max Planck Institute for Solid State Research, Heisenbergstraße. 1, D-70569 Stuttgart, Germany.

Materials (Basel) ; 15(7)2022 Apr 06.

Article em En | MEDLINE | ID: mdl-35408027

Palavras-chave

DFT; La1−xSrxScO3−Î´; antiphase boundaries; lanthanum scandate; oxygen transport; oxygen vacancy; perovskite

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Materials (Basel) Ano de publicação: 2022 Tipo de documento: Article País de afiliação: Letônia

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