Stability, mixed conductivity, and thermomechanical properties of perovskite materials for fuel cell electrodes based on La(0.5)A(0.5)Mn(0.5)Ti(0.5)O(3-delta), La0.5Ba0.5Ti0.5Fe0.5O3-delta, and (La0.5D0.5)(0.95)Cr0.5Fe0.5O3-delta (A = Ca, Ba)

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abstract

For materials based on ferrites and manganites with DD degrees(2+) and D'D degrees(2+) cations substituted into D sublattice, the functional properties are studied and the prospects as electrode materials for solid-oxide fuel cells are assessed. The electronic conductivity of materials based on La(0.5)A(0.5)Mn(0.5)Ti(0.5)O(3-delta) is shown to decrease with the increase in the ionic radius of alkali-earth substituent; however, for La0.5D'D degrees 0.5Mn0.5Ti0.5O3-delta and La0.5D'D degrees 0.5Fe0.5Ti0.5O3-delta, the appearance of n-conduction is observed during reduction, which may provide adequate conductivity under anodic conditions. Under the conditions of fuel cell operation, the thermal expansion coefficients of these materials are (13.0-13.5) x 10(-6) K-1. The thermal and chemical expansion increases with the increase in the radius of alkali-earth cation; the latter value does not exceed 0.2%, which is acceptable for preparation of electronic layers. The transition of oxygen through membranes based on materials studied is determined to the large extent by the kinetics of surface exchange which depends on the rate of delivery of oxygen vacancies to the surface. Doping of ferrites with chromium or titanium decreases the electronic and ionic conductivity; however, the presence of substituents in D' sublattice makes it possible to stabilize the perovskite phase in a wide range of NEuro(D-2), decrease the thermal and chemical expansion, and prevent to the large extent the ordering of oxygen vacancies, which allows one to consider these materials as the candidates for electrodes in symmetrical solid-oxide fuel cells.

keywords

ANODE MATERIALS; TRANSPORT-PROPERTIES; ELECTRICAL-CONDUCTIVITY; OXYGEN NONSTOICHIOMETRY; STRONTIUM TITANATES; THERMAL-EXPANSION; DEFECT STRUCTURE; SOFC; PERFORMANCE; FE

subject category

Electrochemistry

authors

Kolotygin, VA; Tsipis, EV; Patrikeev, MV; Ivanov, AI; Kharton, VV

our authors

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Ekaterina Tsipis

Post-doc Fellowship
foto Vladislav Kharton

Vladislav Kharton

Invited Principal Researcher

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acknowledgements

This study was carried out with the financial support by the Ministry of Education and Science of the Russian Federation (grant no. 14.V25.31.0018) and the Russian Foundation for Basic Research (grant no. 14-29-04042).

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Publication Details

type
Journal Article
year
2016
journal
RUSSIAN JOURNAL OF ELECTROCHEMISTRY
volume
52
publisher
MAIK NAUKA/INTERPERIODICA/SPRINGER
issn
1023-1935
issue
7
digital object identifier
10.1134/S1023193516070089
web of science article identifier
WOS:000381264900006

Journal Metrics (JCR 2019)

Journal Impact Factor
1.063
Journal Impact Factor (5 yrs)
0.997
category normalized journal percentile
9.259

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