Recent development on perovskite-type cathode materials based on SrCoO3-δ parent oxide for intermediate-temperature solid oxide fuel cells

Li, Mengran, Zhou, Wei and Zhu, Zhonghua (2016) Recent development on perovskite-type cathode materials based on SrCoO3-δ parent oxide for intermediate-temperature solid oxide fuel cells. Asia-Pacific Journal of Chemical Engineering, 11 3: 370-381. doi:10.1002/apj.2009


Author Li, Mengran
Zhou, Wei
Zhu, Zhonghua
Title Recent development on perovskite-type cathode materials based on SrCoO3-δ parent oxide for intermediate-temperature solid oxide fuel cells
Formatted title
Recent development on perovskite-type cathode materials based on SrCoO3-δ parent oxide for intermediate-temperature solid oxide fuel cells
Journal name Asia-Pacific Journal of Chemical Engineering   Check publisher's open access policy
ISSN 1932-2143
1932-2135
Publication date 2016-05-01
Year available 2016
Sub-type Critical review of research, literature review, critical commentary
DOI 10.1002/apj.2009
Open Access Status Not yet assessed
Volume 11
Issue 3
Start page 370
End page 381
Total pages 12
Place of publication Chichester, West Sussex, United Kingdom
Publisher John Wiley & Sons
Collection year 2017
Language eng
Formatted abstract
The slow oxygen reduction reaction kinetics as well as structural and chemical instability of cathode are the main barriers hindering the development of the solid oxide fuel cell operated at intermediate temperature. Therefore, immense efforts have been devoted to address these two demanding issues. Perovskite cathodes based on SrCoO3 - δ show promising electroactivity on oxygen reduction at intermediate temperature but are susceptible to contaminates in air. In this short review, we mainly cover the recent advances in SrCoO3 - δ-based perovskite cathode development, with emphasis on doping strategies in electroactivity enhancement and cathode tolerance to CO2. Some future research directions are also recommended at the end of this review.
Keyword Cathode
CO2 poisoning
IT-SOFC
Oxygen reduction reaction
Perovskite
Q-Index Code C1
Q-Index Status Provisional Code
Institutional Status UQ

Document type: Journal Article
Sub-type: Critical review of research, literature review, critical commentary
Collections: School of Civil Engineering Publications
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