Unveiling the importance of the interface in nanocomposite cathodes for proton‐conducting solid oxide fuel cells

Exploration Pub Date : 2024-02-01 DOI:10.1002/exp.20230082
Yanru Yin, Yifan Wang, Nan Yang, Lei Bi
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Abstract

Designing a high‐performance cathode is essential for the development of proton‐conducting solid oxide fuel cells (H‐SOFCs), and nanocomposite cathodes have proven to be an effective means of achieving this. However, the mechanism behind the nanocomposite cathodes' remarkable performance remains unknown. Doping the Co element into BaZrO3 can result in the development of BaCoO3 and BaZr0.7Co0.3O3 nanocomposites when the doping concentration exceeds 30%, according to the present study. The construction of the BaCoO3/BaZr0.7Co0.3O3 interface is essential for the enhancement of the cathode catalytic activity, as demonstrated by thin‐film studies using pulsed laser deposition to simulate the interface of the BCO and BZCO individual particles and first‐principles calculations to predict the oxygen reduction reaction steps. Eventually, the H‐SOFC with a BaZr0.4Co0.6O3 cathode produces a record‐breaking power density of 2253 mW cm−2 at 700°C.
揭示质子传导型固体氧化物燃料电池纳米复合阴极界面的重要性
设计高性能阴极对于质子传导型固体氧化物燃料电池(H-SOFC)的开发至关重要,而纳米复合阴极已被证明是实现这一目标的有效手段。然而,纳米复合阴极卓越性能背后的机理仍然未知。根据本研究,在 BaZrO3 中掺入钴元素,当掺入浓度超过 30% 时,就能形成 BaCoO3 和 BaZr0.7Co0.3O3 纳米复合材料。利用脉冲激光沉积模拟 BCO 和 BZCO 单个颗粒的界面,并通过第一性原理计算预测氧还原反应步骤,这些薄膜研究表明,BaCoO3/BaZr0.7Co0.3O3 界面的构建对于提高阴极催化活性至关重要。最终,采用 BaZr0.4Co0.6O3 阴极的 H-SOFC 在 700°C 温度下产生了破纪录的 2253 mW cm-2 功率密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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