法拉第效率
密度泛函理论
质子化
氧化还原
氧气
电化学
空位缺陷
化学
离子
选择性
化学物理
联轴节(管道)
格子(音乐)
光谱学
材料科学
析氧
红外光谱学
无机化学
原位
电极
反应机理
电子结构
作者
Guoqing Zhang,Xiaobo Zheng,Zihao Zhao,Hui Zhao,Jiawei Zhang,Yuming Dong,Yao Wang,Yongfa Zhu
出处
期刊:ACS energy letters
[American Chemical Society]
日期:2025-12-18
卷期号:11 (1): 625-634
被引量:2
标识
DOI:10.1021/acsenergylett.5c03256
摘要
Regulating competitive reaction pathways to enhance the selectivity of C 2 H 4 production in electrochemical CO 2 reduction reactions is crucial yet remains challenging, primarily due to the limited understanding of the active sites. In this study, we propose oxygen vacancy bridged Cu–Ce pairs to construct an adjustable atomic interface, which enables a Faradaic efficiency of C 2 H 4 as high as 55.6% and stability for 60 h at 300 mA cm –2 . Advanced characterizations revealed that the introduction of Ce causes local lattice distortion, breaking the original symmetric coordination structure and promoting the formation of oxygen vacancies. In situ infrared spectroscopy combined with density functional theory calculations show that the redox ion pairs of synergistic interactions of Ce species and oxygen vacancies can accelerate the *CO protonation through facilitating water dissociation, reduce the energy barrier of asymmetric *CO–*CHO coupling, and improve the Faradaic efficiency of electrocatalytic CO 2 reduction to C 2 H 4 .
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