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Self-Transforming Configuration Based on Atmospheric-Adaptive Materials for Solid Oxide Cells

Author(s)
Kim, SeonaLee, SeungtaeKim, JunyoungShin, JeeyoungKim, Guntae
Issued Date
2018-11
DOI
10.1038/s41598-018-35659-y
URI
https://scholarworks.unist.ac.kr/handle/201301/25563
Fulltext
https://www.nature.com/articles/s41598-018-35659-y
Citation
SCIENTIFIC REPORTS, v.8, pp.17149
Abstract
Solid oxide cells (SOC) with a symmetrical configuration have been focused due to the practical benefits of such configurations, such as minimized compatibility issues, a simple fabrication process and reduced cost compared to SOCs with the asymmetrical configuration. However, the performance of SOCs using a single type of electrode material (symmetrical configuration) is lower than the performance of those using the dissimilar electrode materials (asymmetrical configuration). Therefore, to achieve a high-performance cell, we design a 'self-transforming cell' with the asymmetric configuration using only materials of the single type, one based on atmospheric adaptive materials. Atmospheric-adaptive perovskite Pr0.5Ba0.5Mn0.85Co0.15O3-delta (PBMCo) was used for the so-called self-transforming cell electrodes, which changed to layered perovskite and metal in the fuel atmosphere and retained its original structure in the air atmosphere. In fuel cell mods, the self-transforming cell shows excellent electrochemical performance of 1.10Wcm(-2) at 800 degrees C and good stability for 100 h without any catalyst. In electrolysis mode, the moderate current densities of -0.42A cm(-2) for 3 vol.% H2O and -0.62 A cm(-2) for 10 vol.% H2O, respectively, were observed at a cell voltage of 1.3V at 800 degrees C. In the reversible cycling test, the transforming cell maintains the constant voltages for 30 h at +/- 0.2A cm(-2) under 10 vol. % H2O.
Publisher
NATURE PUBLISHING GROUP
ISSN
2045-2322
Keyword
FUEL-CELLSSYMMETRICAL ELECTRODESCATHODETEMPERATURECOMPOSITES

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