海水
磷钼酸
催化作用
电解
无机化学
化学
化学工程
阳极
腐蚀
阴极保护
析氧
电解水
氢
氯化物
材料科学
镍
杂质
分解水
蚀刻(微加工)
剥脱关节
碱性水电解
作者
Xianhang Huang,Luyu Chen,Yingyao Li,Yeqing Liu,Hang Zhang,L. K. Li,Yu Wang
出处
期刊:Small
[Wiley]
日期:2026-01-21
卷期号:22 (14): e13251-e13251
被引量:1
标识
DOI:10.1002/smll.202513251
摘要
Direct seawater electrolysis offers a sustainable pathway for hydrogen production, yet the development of cost-effective catalysts with high activity, durability, and scalable preparation remains challenging. Here, we report a mild interfacial synergistic etching strategy that enables the rapid fabrication of efficient oxygen evolution catalysts. Nickel foam is controllably etched by phosphomolybdic acid (PMA) and trace Fe3 +, yielding meter-scale catalysts (60-Fe-PMA/NF) within 60 s at room temperature. The synergistic incorporation of iron and the dynamic leaching-reabsorption of phosphomolybdate in alkaline media promote rapid surface reconstruction, enhancing chloride corrosion resistance and impurity tolerance. As a result, 60-Fe-PMA/NF exhibits superior stability under harsh seawater electrolysis conditions. In a zero-gap electrolyzer, it operates steadily for more than 270 h at 1.0 A cm-2 in alkaline seawater (1 M KOH + seawater). This work demonstrates a scalable, low-cost strategy for constructing robust OER catalysts, advancing practical seawater electrolysis toward sustainable hydrogen production.
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