Inorganic perovskite oxides

Tatsumi Ishihara

doi:10.1007/978-3-319-48933-9_59

Inorganic perovskite oxides

Tatsumi Ishihara

Materials Science and Engineering, School of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

3 Citations (Scopus)

Abstract

Crystal structure and important functions of inorganic perovskite oxides are introduced. Perovskite oxides comprise large families among the structures of oxide compounds, and several perovskite-related structures are currently recognized. Typical structures (ABO₃) consist of large-sized 12-coordinated cations at the A-site and small-sized 6-coordinated cations at the B-site. Several complex halides and sulfides and many complex oxides have a perovskite structure. From a variety of compositions and structures, a variety of functions are observed in perovskite oxides. In particular high electronic conductivity, which is at a similar level as metal, and surface activity to oxygen dissociation, are highly attractive in this oxide. Perovskite oxide is now widely used for solid oxide fuel cells.

Original language	English
Title of host publication	Springer Handbooks
Publisher	Springer
Pages	1
Number of pages	1
DOIs	https://doi.org/10.1007/978-3-319-48933-9_59
Publication status	Published - 2017

Publication series

Name	Springer Handbooks
ISSN (Print)	2522-8692
ISSN (Electronic)	2522-8706

All Science Journal Classification (ASJC) codes

General

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10.1007/978-3-319-48933-9_59

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AB - Crystal structure and important functions of inorganic perovskite oxides are introduced. Perovskite oxides comprise large families among the structures of oxide compounds, and several perovskite-related structures are currently recognized. Typical structures (ABO3) consist of large-sized 12-coordinated cations at the A-site and small-sized 6-coordinated cations at the B-site. Several complex halides and sulfides and many complex oxides have a perovskite structure. From a variety of compositions and structures, a variety of functions are observed in perovskite oxides. In particular high electronic conductivity, which is at a similar level as metal, and surface activity to oxygen dissociation, are highly attractive in this oxide. Perovskite oxide is now widely used for solid oxide fuel cells.

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