1. Suppression of Cation Segregation in (La,Sr)CoO3−δ by Elastic Energy Minimization
- Author
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Hyunguk Kwon, Minwoo Ahn, Won Young Lee, Ji-Won Son, Ja Yang Koo, Mingi Choi, and Jeong Woo Han
- Subjects
Strontium ,Materials science ,Dopant ,Kinetics ,Elastic energy ,Oxide ,Thermodynamics ,chemistry.chemical_element ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Cathode ,0104 chemical sciences ,law.invention ,chemistry.chemical_compound ,chemistry ,Volume (thermodynamics) ,law ,General Materials Science ,0210 nano-technology ,Perovskite (structure) - Abstract
Strontium segregation at perovskite surfaces deteriorates the oxygen reduction reaction kinetics of cathodes and therefore the long-term stability of solid oxide fuel cells (SOFCs). For the systematic and quantitative assessment of the elastic energy in perovskite oxides, which is known to be one of the main origins for dopant segregation, we report the fractional free volume as a new descriptor for the elastic energy in the perovskite oxide system. To verify the fractional free volume model, three samples were prepared with different A-site dopants: La0.6Sr0.4CoO3−δ, La0.6Sr0.2Ca0.2CoO3−δ, and La0.6Ca0.4CoO3−δ. A combination of the theoretical calculations of the segregation energy and oxide formation energy and experimental measurements of the structural, chemical, and electrochemical degradation substantiated the validity of using the fractional free volume to predict the dopant segregation. Furthermore, the dopant segregation could be significantly suppressed by increasing the fractional free volume i...
- Published
- 2018
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