Molybdate‐Leaching‐Induced Bimetallic Catalyst for Efficient Anion Exchange Membrane Water Electrolysis

双金属片 浸出(土壤学) 钼酸盐 材料科学 催化作用 电解 无机化学 离子交换 离子 化学工程 冶金 有机化学 化学 电极 金属 电解质 环境科学 生物化学 物理化学 土壤科学 土壤水分 工程类
作者
Zhuorong Lu,Wenzhe Niu,Yixiang He,Lujie Jin,Weihang Li,Xiao Yang,Kai Sun,Qisheng Yan,J. H. Chen,Jiaqi Zhang,Wen‐Juan Shi,Chenyang Wei,Youyong Li,Hongbin Lu,Bo Zhang
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:35 (40) 被引量:8
标识
DOI:10.1002/adfm.202505626
摘要

Abstract Anion exchange membrane water electrolysis (AEMWE) offers a promising route for green hydrogen production avoiding noble metal catalysts. The sluggish oxygen evolution reaction (OER) kinetics constrained by the intrinsic activity and limited abundance of active sites however remains a significant barrier to the advancement of AEMWE. In this study, heteroatom doping is combined with a molybdate‐leaching strategy to enhance both the intrinsic activity and active site abundance in a single catalyst. Iron is doped into nickel molybdate through a microwave‐assisted method, followed by molybdenum leaching, formed molybdate‐derived Fe‐doped nickel hydroxide (MD‐FeNi). The synergistic effects of the bimetallic composition and the expanded active surface area facilitate the transformation of Ni(OH) 2 in MD‐FeNi to NiOOH, significantly enhancing OER activity. When integrated into an AEMWE system, the catalyst achieves an impressive current density of 7.48 A cm −2 at 2 V, which is ≈2.2 and 2.0 times higher than that of molybdate derived Ni(OH) 2 (3.35 A cm −2 ) and traditional Fe doped Ni(OH) 2 (3.75 A cm −2 ). Furthermore, this binary high‐activity system strategy has demonstrated broad applicability across various catalytic systems, molybdate‐derived Ag‐doped copper hydroxide for high‐efficient CO electroreduction and molybdate‐derived Fe‐doped cobalt hydroxide for NaBH 4 hydrolysis reaction, indicating its potential for diverse applications.
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