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Abstract Copper (Cu) is the most attractive electrocatalyst for CO2reduction to multi‐carbon (C2+) products with high economic value in considerable amounts. However, the rational design of a structurally stable Cu‐based catalyst that can achieve high activity and stability towards C2+products remain a grand challenge. Here, a highly stable nickel oxygenate/Cu electrocatalyst is developed with abundant NiOOH/Cu interfaces by in situ electrochemical reconstruction. The nickel oxygenate/Cu electrocatalyst achieves a superior Faradaic efficiency of 86.3 ± 3.0% and a record partial current density of 2085 A g−1for C2+products with long‐term stability. In situ experimental and theoretical studies demonstrates that the exceptional performance in generating C2+products is attributed to the presence of the NiOOH/Cu interfaces which increase *CO coverage, lower energy barrier for *CO coupling and stabilize *OCCO simultaneously. This work provides new insights into the rational design of electrocatalysts to achieve stable and efficient electrocatalytic CO2reduction capabilities.
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Cai, Zhao; Wu, Yueshen; Wu, Zishan; Yin, Lichang; Weng, Zhe; Zhong, Yiren; Xu, Wenwen; Sun, Xiaoming; Wang, Hailiang (, ACS Energy Letters)
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Weng, Zhe; Wu, Yueshen; Wang, Maoyu; Jiang, Jianbing; Yang, Ke; Huo, Shengjuan; Wang, Xiao-Feng; Ma, Qing; Brudvig, Gary W.; Batista, Victor S.; et al (, Nature Communications)
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Wu, Yueshen; Jiang, Jianbing; Weng, Zhe; Wang, Maoyu; Broere, Daniël L.; Zhong, Yiren; Brudvig, Gary W.; Feng, Zhenxing; Wang, Hailiang (, ACS Central Science)
