催化作用
电化学
硝酸盐
环境修复
吸附
联轴节(管道)
气凝胶
化学
无机化学
选择性
地下水修复
硫黄
化学工程
工作(物理)
地下水
材料科学
还原(数学)
选择性催化还原
多相催化
氧化还原
电极
纳米技术
多孔性
路径(计算)
作者
Peiren Ding,Wei Chen,F. H. Liu,Yang Liu,Kaiwei Zheng,Yuankui Sun,Xiaohong Guan,S. P. Wang
标识
DOI:10.1002/anie.202522680
摘要
Abstract Electrochemical nitrate (NO 3 − ) reduction to dinitrogen (N 2 ) is a promising approach for environmental remediation but suffers from the sluggish * NO coupling and excessive * H supply on traditional electrocatalysts. Herein, we construct a sulfur‐doped zero‐valent iron (Fe 0 @S) aerogel that enables highly selective electrochemical nitrate‐to‐dinitrogen conversion via * NO→ * N 2 O→N 2 path by synchronously regulating * H supply and * NO coupling. Mechanistic studies reveal that the aerogel's 3D porous framework enriches local NO 3 − near active sites, while strategic sulfur incorporation can weaken H 2 O adsorption and tune * NO 3 − binding strength, thereby lowering the energy barrier for * NO coupling into * N 2 O and subsequent reduction to N 2 . With a flow‐through electrolyzer, we achieve near‐complete removal of 50 mg/L NO 3 − from real surface and ground water with a high N 2 selectivity above 90%. This work provides a practical NO 3 − remediation method based on non‐noble metals and presents a simple strategy for the design of catalyst structure to improve N 2 selectivity.
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