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Tracking structural evolution: operando regenerative CeOx/Bi interface structure for high-performance CO2 electroreduction
Authors:Ruichao Pang  Pengfei Tian  Hongliang Jiang  Minghui Zhu  Xiaozhi Su  Yu Wang  Xiaoling Yang  Yihua Zhu  Li Song  Chunzhong Li
Abstract:Unveiling the structural evolution and working mechanism of catalysts under realistic operating conditions is crucial for the design of efficient electrocatalysts for CO2 electroreduction, yet remains highly challenging. Here, by virtue of operando structural measurements at multiscale levels, it is identified under CO2 electroreduction conditions that an as-prepared CeO2/BiOCl precatalyst gradually evolves into CeOx/Bi interface structure with enriched Ce3+ species, which serves as the real catalytically active phase. The derived CeOx/Bi interface structure compared to pure Bi counterpart delivers substantially enhanced performance with a formate Faradaic efficiency approaching 90% for 24 hours in a wide potential window. The formate Faradaic efficiency can be further increased by using isotope D2O instead of H2O. Density functional theory calculations suggest that the regenerative CeOx/Bi interfacial sites can not only promote water activation to increase local *H species for CO2 protonation appropriately, but also stabilize the key intermediate *OCHO in formate pathway.
Keywords:CO2 electroreduction   electrocatalyst   nanosheet   structural evolution   interface
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