法拉第效率
催化作用
选择性
还原(数学)
材料科学
热液循环
可再生能源
化学工程
纳米技术
工作(物理)
制作
碳纤维
能量转换效率
可逆氢电极
合理设计
氧化还原
水热合成
化学
氢
电催化剂
反应条件
产品(数学)
二氧化碳电化学还原
作者
W.Y. Chu,Qian Guo,Haoran Zou,Zhaoyang Liu,Xiaohui Ren,Xusheng Wang,Rongsheng Chen,Hua Zhang,Hongwei Ni
出处
期刊:ACS omega
[American Chemical Society]
日期:2025-09-26
卷期号:10 (39): 46079-46086
标识
DOI:10.1021/acsomega.5c07346
摘要
The electrocatalytic reduction of CO2 to C2 products, driven by renewable electricity, represents a promising approach for storing intermittent renewable energy. A major challenge, however, lies in the difficulty of suppressing the competing hydrogen evolution reaction (HER), which significantly lowers the selectivity toward C2 products and diminishes the overall efficiency of the CO2 reduction systems. Here, we report a strategy for designing metal-based catalysts through precise regulation of the hydrothermal reaction temperature, thereby enhancing the efficiency of the conversion of CO2 to C2 products. The catalyst of CuO at 200 °C shows a CO2-to-C2 Faradaic efficiency of 58.6% and a CO2-to-Cproduct Faradaic efficiency of 70% at -1.4 V vs RHE. Our work provides foundational insight into the crucial role of catalyst morphology in enhancing performance in CO2 electrolysis, facilitating the rational development of highly efficient CO2 reduction catalysts.
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