甲烷化
钌
催化作用
镍
二氧化碳
化学
碳纤维
化学工程
无机化学
材料科学
有机化学
复合数
工程类
复合材料
作者
Juan Carlos Navarro de Miguel,Luis F. Bobadilla,M.Á. Centeno,O.H. Laguna,J.A. Odriozola
标识
DOI:10.1021/acssuschemeng.4c10845
摘要
The utilization of nickel–ruthenium as bimetallic catalysts is widely recognized for its efficacy in enhancing the catalytic performance in the carbon dioxide methanation reaction. The present study focuses on the synergistic interplay between both active sites and their respective roles in the reaction mechanism through operando DRIFT-MS analysis. Findings reveal that the bimetallic catalyst is constituted by NiRu nanocrystallites with Ru atoms segregated at defect edge/corner sites, promoting the dissociation of carbon dioxide and the formation of CHx species. Furthermore, Ni atoms predominantly occupy facets or terrace sites, characterized by higher electron density conducive to carbon monoxide hydrogenation to methane. This research offers a comprehensive elucidation of the carbon dioxide methanation mechanism within a bimetallic system and underscores the efficacy of the operando methodology in advancing our fundamental understanding of heterogeneous catalysis.
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