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- Title
Denitrification Performance and Mechanism of Nitrogen Doped Carbon Coated Cu–Fe Nanoalloy.
- Authors
Li, Xin; Bai, Zehui; Tang, Zixuan; Lan, Haosheng; Ding, Le; Qu, Yansen; Chang, Xinghua; Yang, Yang; Zhang, Bingquan
- Abstract
Electrochemically converting nitrate into ammonia (ECNA) is expected to achieve wastewater treatment combined with distributed ammonia generation, which is beneficial to restoring the globally disrupted nitrogen cycle. While sluggish reaction kinetics and insufficient selectivity towards ammonia generation greatly hinder the practical application of ECNA. In this study, chloride-derived bimetallic Cu–Fe catalysts with flexible Cu/Fe ratios confined by nitrogen-doped carbon (CuxFey/CN) were constructed through reactive mechanical milling combined with thermal pyrolysis, enabling stable and efficient nitrate-to-ammonia conversion. The CN coating effectively prevents further oxidation of Fe2+, promoting electron transfer from Fe2+ to Cu+ and maintaining the highly reactive center Cu+/Cu stable. The optimized Cu3Fe/CN700-15 sample exhibits good nitrate conversion efficiency of 57.0% and ammonium selectivity of 61.6% within 6 h at −0.7 V relative to the reversible hydrogen electrode (vs. RHE). This work provides a new idea for stable and sustainable bimetallic denitrification.
- Subjects
DOPING agents (Chemistry); OXYGEN reduction; MECHANICAL alloying; NITROGEN cycle; STANDARD hydrogen electrode; BIMETALLIC catalysts; DENITRIFICATION
- Publication
Catalysis Letters, 2024, Vol 154, Issue 7, p3808
- ISSN
1011-372X
- Publication type
Article
- DOI
10.1007/s10562-023-04574-x