Oxygen evolution on perovskite-type cobaltite anodes: an assessment of materials science-related aspects

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abstract

Ceramic anodes, made of perovskite-type rare-earth and strontium cobaltites substituted in both sublattices, exhibit a high electrocatalytic activity towards oxygen evolution in alkaline media. This work analyzes the relationships between cation composition, defect structure, electronic conductivity and electrochemical performance for a wide group of perovskite-like cobaltites, including Ln(1-y)A(y)CoO(3-delta) (Ln= Pr, Nd, Sm; A= Sr, Ca; y= 0-0.4), La1-x-ySrxBiyCoO3-delta (x= 0-0.6, y= 0-0.1), La0.7-xSr0.3CoO3-delta (x= 0-0.10), Sr1-xBaxCoO3-delta (x= 0.1-0.2) and SrCo1-yMyO3-delta (M=Fe, Ni, Ti, Cu; y= 0.1-0.6). The materials were prepared by the standard ceramic technique and characterized employing XRD, TGA, iodometric titration, and total conductivity measurements. A relatively high electrochemical performance in alkaline solutions was observed for (La,Sr)CoO3-based compositions with a moderate A-site deficiency. For SrCoO3-based materials, an increase in the oxygen evolution rate was found when co-substituting cobalt with several transition metal cations, such as Fe3+/4+ and Cu2+/3+. The results show that, in general, the key composition-related factors influencing electrochemical activity in alkaline media include the oxygen vacancy concentration, the average positive charge density in the crystal lattice, and possible blocking of active sites on the electrode surface.

keywords

OXIDES

subject category

Materials Science

authors

Kovalevsky, AV; Sviridov, DV; Kharton, VV; Naumovich, EN; Frade, JR

our authors

foto Andrei Kavaleuski

Andrei Kavaleuski

Principal Researcher
foto Jorge Ribeiro Frade

Jorge Ribeiro Frade

Retired Professor
foto Vladislav Kharton

Vladislav Kharton

Invited Principal Researcher

Groups

G3 - Electrochemical Materials, Interfaces and Coatings

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Publication Details

type
Journal Article
year
2006
journal
ADVANCED MATERIALS FORUM III, PTS 1 AND 2
volume
514-516
publisher
TRANS TECH PUBLICATIONS LTD
issn
0255-5476
web of science article identifier
WOS:000238056400077

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