TEM Study of Oxygen Partial Pressure Effect on Early LSM-YSZ Surface Interactions in Solid Oxide Fuel Cells

EDFA Technical Articles Pub Date : 2021-05-01 DOI:10.31399/asm.edfa.2021-2.p022
H. Wang, M. Chen, Y.L. Liu, L. Theil Kuhn, J. Bowen
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引用次数: 1

Abstract

Long-term stability studies indicate that cathode degradation is one of the main failure mechanisms in anode-supported SOFCs. In order to better understand the microstructural degradation mechanisms of the cathode and the influence of oxygen partial pressure at relevant operating temperatures, the authors of this article acquired TEM samples from technological cells to study cation interdiffusion mechanisms and LSM-YSZ interactions, particularly in areas where LSM grains are in contact with YSZ electrolyte. Here they present and interpret the results.
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固体氧化物燃料电池中氧分压对LSM-YSZ早期表面相互作用影响的透射电镜研究
长期稳定性研究表明,阴极降解是阳极负载sofc的主要失效机制之一。为了更好地了解阴极的微观结构降解机制以及相关操作温度下氧分压的影响,本文作者从工艺电池中获取了TEM样品,研究阳离子互扩散机制和LSM-YSZ相互作用,特别是在LSM颗粒与YSZ电解质接触的区域。在这里,他们展示并解释了结果。
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