电催化剂
次磷酸
催化作用
镍
废水
电化学
材料科学
法拉第效率
无机化学
电镀(地质)
化学工程
工业废水处理
阴极
化学
氨
阴极保护
电镀
阳极
磷酸盐
涂层
电解
硝酸盐
极化(电化学)
次磷酸钠
污水处理
电渗析
环境修复
原材料
作者
Maonan Ran,Xuechuan Li,Guan Zhe Zhang
标识
DOI:10.1002/ange.202524256
摘要
Abstract The electrochemical nitrate reduction reaction (NO 3 − RR) presents a promising strategy for simultaneous wastewater remediation and ammonia synthesis. However, the fabrication of efficient, stable, and economically viable electrocatalysts remains a significant challenge. Addressing this, we report the rapid (14 min) electrodeposition of an amorphous nickel phosphate catalyst directly onto a metallic foam cathode, utilizing nickel plating wastewater as a precursor under high‐current conditions. This catalyst exhibits exceptional performance in acidic media, achieving a Faradaic efficiency of 96.6% for ammonia at −0.5 V (versus RHE) in 10 mM NO 3 − solution, alongside remarkable electrochemical stability exceeding 20 h. We attribute the catalyst formation to the oxidation of hypophosphite at the cathode interface during high current polarization and its subsequent co‐deposition with Ni 2+ ions. When applied to actual nickel plating wastewater at 200 mA cm −2 , the system demonstrated relatively stable operation for 30 h and successfully recovered ammonium sulfate. Combined experimental and theoretical analyses reveal the origin of the superior NO 3 − RR activity. This work provides an innovative waste‐derived strategy for the rapid synthesis of high‐performance catalysts and advances the sustainable recovery of nitrogen, phosphorus, and nickel from industrial waste streams.
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