Structural phase relations in perovskite-structured BiFeO3-based multiferroic compounds

In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO 3 -based polycrystalline solid solutions is presented and discussed. Issues about the close relation between the structural phase and overall physical properties of the reviewed system...

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Published inJournal of advanced ceramics Vol. 2; no. 2; pp. 103 - 111
Main Authors Freitas, Valdirlei Fernandes, Dias, Gustavo Sanguino, Protzek, Otávio Algusto, Montanher, Diogo Zampieri, Catellani, Igor Barbosa, Silva, Daniel Matos, Cótica, Luiz Fernando, dos Santos, Ivair Aparecido
Format Journal Article
LanguageEnglish
Published Beijing Tsinghua University Press 01.06.2013
Subjects
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Ferroelectric materials
Ferroelectricity
Glass
Joining
Magnetic properties
Materials Science
Nanotechnology
Natural Materials
Physical properties
Review
Solid solutions
State of the art
Structural Materials
multiferroics
ferroelectrics
bismuth ferrite
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Abstract In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO 3 -based polycrystalline solid solutions is presented and discussed. Issues about the close relation between the structural phase and overall physical properties of the reviewed systems are pointed out and discussed. It is shown that, by adjusting the structural symmetric arrangement, the ferroelectric and magnetic properties of BiFeO 3 -based polycrystalline solid solutions can be tuned to find specific multifunctional applications. However, an intrinsic mechanism linking structural arrangement and physical properties cannot be identified, revealing that this subject still deserves further discussion and investigation.
AbstractList In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO3-based polycrystalline solid solutions is presented and discussed. Issues about the close relation between the structural phase and overall physical properties of the reviewed systems are pointed out and discussed. It is shown that, by adjusting the structural symmetric arrangement, the ferroelectric and magnetic properties of BiFeO3-based polycrystalline solid solutions can be tuned to find specific multifunctional applications. However, an intrinsic mechanism linking structural arrangement and physical properties cannot be identified, revealing that this subject still deserves further discussion and investigation.
The state-of-the-art in understanding the structural phase relations in perovskite-structured BiFeO3-based polycrystalline solid solutions is presented. Issues about the close relation between the structural phase and overall physical properties of the reviewed systems are discussed. The three most investigated binary systems are BiFeO3-PbTiO3, BiFeO3-BaTiO3 and BiFeO3-PbZrO3 and these are discussed in turn. It is shown that, by adjusting the structural symmetric arrangement, the ferroelectric and magnetic properties of BiFeO3-based polycrystalline solid solutions can be tuned to find specific multifunctional applications. However, an intrinsic mechanism linking structural arrangement and physical properties cannot be identified, indicating that this subject still requires investigation.
In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO 3 -based polycrystalline solid solutions is presented and discussed. Issues about the close relation between the structural phase and overall physical properties of the reviewed systems are pointed out and discussed. It is shown that, by adjusting the structural symmetric arrangement, the ferroelectric and magnetic properties of BiFeO 3 -based polycrystalline solid solutions can be tuned to find specific multifunctional applications. However, an intrinsic mechanism linking structural arrangement and physical properties cannot be identified, revealing that this subject still deserves further discussion and investigation.
Author Montanher, Diogo Zampieri
Cótica, Luiz Fernando
Dias, Gustavo Sanguino
dos Santos, Ivair Aparecido
Protzek, Otávio Algusto
Freitas, Valdirlei Fernandes
Silva, Daniel Matos
Catellani, Igor Barbosa
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  givenname: Gustavo Sanguino
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  givenname: Otávio Algusto
  surname: Protzek
  fullname: Protzek, Otávio Algusto
  organization: Departamento de Física, UEM—Universidade Estadual de Maringá, GDDM—Grupo de Desenvolvimento de Dispositivos Multifuncionais
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  givenname: Daniel Matos
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  givenname: Luiz Fernando
  surname: Cótica
  fullname: Cótica, Luiz Fernando
  organization: Departamento de Física, UEM—Universidade Estadual de Maringá, GDDM—Grupo de Desenvolvimento de Dispositivos Multifuncionais
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  givenname: Ivair Aparecido
  surname: dos Santos
  fullname: dos Santos, Ivair Aparecido
  organization: Departamento de Física, UEM—Universidade Estadual de Maringá, GDDM—Grupo de Desenvolvimento de Dispositivos Multifuncionais
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Snippet In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO 3 -based polycrystalline solid solutions is...
In this review, the state of the art in understanding the structural phase relations in perovskite-structured BiFeO3-based polycrystalline solid solutions is...
The state-of-the-art in understanding the structural phase relations in perovskite-structured BiFeO3-based polycrystalline solid solutions is presented. Issues...
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SubjectTerms Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Ferroelectric materials
Ferroelectricity
Glass
Joining
Magnetic properties
Materials Science
Nanotechnology
Natural Materials
Physical properties
Review
Solid solutions
State of the art
Structural Materials
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Title Structural phase relations in perovskite-structured BiFeO3-based multiferroic compounds
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