采用阴极轻度过烧工艺制备了Sm0.5Sr0.5CoO3-δ(SSC)阴极,并在单电池运行条件下利用25%CO2(体积比)对电池阴极进行了原位处理. XRD及TG分析表明,在600 ℃下, CO2的原位处理导致SSC阴极表面有少量SrCO3和Co3O4生成. 空气吹扫下, SrCoO3-δ和Co3O4的存在都有效地改变了阴极材料的表面物理化学性质. 阴极电催化剂上氧还原速率的加快显著地降低了阴极的极化电阻,从而导致电池的功率密度提高了约20%.
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