Enhanced Oxygen Reduction Activity and Solid Oxide Fuel Cell Performance with a Nanoparticles-Loaded Cathode

Enhanced Oxygen Reduction Activity and Solid Oxide Fuel Cell Performance with a Nanoparticles-Loaded Cathode

Reluctant oxygen-reduction-reaction (ORR) activity has been a long-standing challenge limiting cell performance for solid oxide fuel cells (SOFCs) in both centralized and distributed power applications. We report here that this challenge has been tackled with coloading of (La,Sr)MnO3 (LSM) and Y2O3...

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Veröffentlicht in:Nano letters 2015-03, Vol.15 (3), p.1703-1709
Hauptverfasser: Zhang, Xiaomin, Liu, Li, Zhao, Zhe, Tu, Baofeng, Ou, Dingrong, Cui, Daan, Wei, Xuming, Chen, Xiaobo, Cheng, Mojie
Format: Artikel
Sprache:eng
Schlagworte:
Cathodes
Constraining
Electric Power Supplies
Electrodes
Energy Transfer
Equipment Design
Equipment Failure Analysis
Manganites
Metal Nanoparticles - chemistry
Metal Nanoparticles - ultrastructure
Nanoparticles
Nanostructure
Oxidation-Reduction
Oxides - chemistry
Particle Size
Reduction
Solid oxide fuel cells
Yttria stabilized zirconia
Zirconium - chemistry
Zirconium dioxide
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Zusammenfassung:Reluctant oxygen-reduction-reaction (ORR) activity has been a long-standing challenge limiting cell performance for solid oxide fuel cells (SOFCs) in both centralized and distributed power applications. We report here that this challenge has been tackled with coloading of (La,Sr)MnO3 (LSM) and Y2O3 stabilized zirconia (YSZ) nanoparticles within a porous YSZ framework. This design dramatically improves ORR activity, enhances fuel cell output (200–300% power improvement), and enables superior stability (no observed degradation within 500 h of operation) from 600 to 800 °C. The improved performance is attributed to the intimate contacts between nanoparticulate YSZ and LSM particles in the three-phase boundaries in the cathode.
ISSN:1530-6984
1530-6992
DOI:10.1021/nl5043566