尿素
法拉第效率
电化学
联轴节(管道)
产量(工程)
催化作用
阳极
化学
电极
无机化学
材料科学
膜
化学工程
甘油
偶联反应
化学稳定性
作者
Zeyi Sun,Rui Niu,Shiyao Shang,Ruizhi Liang,Ke Chu
标识
DOI:10.26599/nre.2025.9120198
摘要
Electrochemical urea synthesis from CO2 and NO (EUCN) offers a promising route for sustainable urea production, whereas it still suffers from low C-N coupling efficiency and poor selectivity. Herein, atomically dispersed p-block Bi catalyst is explored for highly active and selective EUCN. Theoretical calculations and in situ spectroscopic analyses reveal a unique *CO-mediated C-N coupling mechanism, where isolated Bi sites facilitate CO2 reduction for *CO formation and enrichment, while *CO-enriched microenvironment boosts subsequent C-N coupling of *CO and *NO to *CONO, a critical C-N intermediate for urea generation, while simultaneously suppressing the competing side reactions. Notably, by pairing cathodic EUCN with anodic glycerol oxidation in a membrane electrode assembly electrolyzer, we achieve a record-high performance with urea yield rate of 86.5 mmol·h–1·g–1 and Faradaic efficiency of 52.1%, as well as the outstanding stability for over 200 h electrolysis.
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