Phase Transitions, Magnetic and Piezoelectric Properties of Rare-Earth-Substituted BiFeO^sub 3^ Ceramics

Phase Transitions, Magnetic and Piezoelectric Properties of Rare-Earth-Substituted BiFeO^sub 3^ Ceramics

The concentration range of the stability of polar (...) and antipolar phases in the ... (RE-La - Dy) solid solutions has been determined by X-ray study of the polycrystalline samples. Both polar and antipolar phases become less stable with a decrease of the rare earth ionic radii. It is stimulated b...

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Veröffentlicht in:Journal of the American Ceramic Society 2011-12, Vol.94 (12), p.4502
Hauptverfasser: Troyanchuk, Igor O, Karpinsky, Dmitry V, Bushinsky, Maxim V, Mantytskaya, Olga S, Tereshko, Nina V, Shut, Victor N
Format: Artikel
Sprache:eng
Schlagworte:
Ceramics
Chemical elements
Dielectric properties
Phase transitions
Solid solutions
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Zusammenfassung:The concentration range of the stability of polar (...) and antipolar phases in the ... (RE-La - Dy) solid solutions has been determined by X-ray study of the polycrystalline samples. Both polar and antipolar phases become less stable with a decrease of the rare earth ionic radii. It is stimulated by a reduction of the rare-earth ions polarizability with a decrease in ionic radii. The antipolar phase is characterized by a weak ferromagnetic state, whereas the polar one exhibits dominantly antiferromagnetic behavior near the polar-antipolar morphotropic boundary. The local piezoelectric response decreases with increase in antipolar phase content in the mixed polar-antipolar structural state. It is suggested that the piezoelectric activity is associated with polar (...) phase. (ProQuest: ... denotes formulae/symbols omitted.)
ISSN:0002-7820
1551-2916