阳极
碳纤维
材料科学
氨
化学工程
脱氢
质子交换膜燃料电池
离子交换
X射线光电子能谱
氢燃料
功率密度
交换电流密度
旋转圆盘电极
复合数
氢
扫描电子显微镜
碱性燃料电池
无机化学
电流密度
催化作用
活化能
膜电极组件
氨硼烷
电化学
制氢
电极
作者
Yu Guo,Fukang Gui,Wenjie Qi,Yingchuan Zhang,Yuemeng Zhang,Ziming Wang,Zijun Hu,Aihua Tang,Qiangfeng Xiao
标识
DOI:10.1016/j.ijhydene.2025.150511
摘要
Direct ammonia fuel cells (DAFCs) have emerged as promising alternatives to hydrogen fuel cells for transportation applications, owing to ammonia's low source-to-tank energy cost and its inherent advantages in storage and distribution. However, current DAFC technologies are significantly limited by the kinetically sluggish ammonia oxidation reaction (AOR) at the anode. In this work, the PtIr nanocubes supported on carbon and CeO 2-δ composite supports have been successfully synthesized. The catalyst demonstrates excellent AOR activity in alkaline media. The structural and compositional properties are characterized using high-angle annular dark-field scanning transmission electron microscopy, X-ray diffraction and X-ray photoelectron spectroscopy. The rotating disk electrode (RDE) measurements reveal a lower activation energy of AOR for the catalyst compared to commercial PtIr/C (19.6 vs . 22.0 kJ mol −1 ). The DAFC employing Pt 5 Ir 1 /CeO 2-δ -NCs as the anode catalyst reaches a peak power density of 335 mW cm −2 . All the results manifest that both support material and particle morphology play a critical role in improving the activity of anode catalyst for DAFCs.
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