区域选择性
水煤气变换反应
选择性
甲烷化
离解(化学)
纳米棒
吸附
光化学
化学
材料科学
化学工程
纳米技术
物理化学
有机化学
催化作用
工程类
作者
Wenbin Li,Bing Liu,Qing Guo,Wenjie Guo,Sai Zhang,Yongquan Qu
标识
DOI:10.1038/s41467-025-62771-1
摘要
Reconstruction of catalysts by reaction environments represents a viable approach to create highly performed active sites. Herein, we develop a reaction-induced regioselective reconstruction of Ni-doped Ce(OH)3/CeO2 nanorods to form dual-active sites composed of carburized Ni clusters and frustrated Lewis pairs (FLPs), delivering exceptional activity, selectivity and stability for reverse water-gas shift reaction. Ni aggregation in the Ce(OH)3 region, coupled with in-situ carbonization by catalytically generated CO during reaction, induces the formation of the carburized Ni clusters, which effectively promoted H2 dissociation. Additionally, Ni doping in the CeO2 region and Ce(OH)3-to-CeO2 phase transition introduce more oxygen vacancies and thereby generated FLPs in CeO2, which facilitate CO2 adsorption and subsequent hydrogenation by spilled *H species from the carburized Ni clusters. Weak CO adsorption on both the carburized Ni clusters and FLPs significantly suppresses the methanation side-reaction. This reaction-induced regioselective reconstruction strategy provides a new avenue for designing highly performed catalysts.
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