催化作用
流动电池
电池(电)
氢
制氢
化学
无机化学
电解
氧化还原
材料科学
化学工程
电极
物理化学
物理
功率(物理)
量子力学
工程类
电解质
有机化学
生物化学
作者
Chang Chen,Zhengqian Fu,Fenggang Qi,Yafeng Chen,Guangyao Meng,Ziwei Chang,Fantao Kong,Libo Zhu,Han Tian,Haitao Huang,Xiangzhi Cui,Jianlin Shi
标识
DOI:10.1002/ange.202207226
摘要
Abstract A novel Zn−Fe flow battery featuring an Fe 3+ reduction reaction (Fe 3+ RR)‐coupled zinc oxidation, and an Fe 2+ oxidation reaction (Fe 2+ OR)‐coupled hydrogen evolution reaction (HER) system as well, was established. This battery is capable of driving two Fe 2+ OR‐coupled HER systems in series based on the above Fe 2+ /Fe 3+ cycling, for efficient self‐powered hydrogen evolution. Meanwhile, this Fe 2+ /Fe 3+ cycling enables the preparation of a multifunctional catalyst, Pt‐3@SXNS (siloxene nanosheet), by the Fe 2+ OR‐promoted dispersion of Pt nanoparticles on SXNS; alternatively, this support could be obtained by Fe 3+ RR‐assisted exfoliation using Fe 3+ from the anolyte of Fe 2+ OR‐coupled HER. The Pt‐3@SXNS catalyst exhibits excellent catalytic activities toward Fe 3+ RR in the Zn−Fe flow battery, HER, and Fe 2+ OR in the electrolyzer, which is attributed to the strong electronic interaction between Pt and Si. This work offers a new strategy for energy storage and low‐cost hydrogen production from acidic wastewater.
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