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Selective Hydrogenation of Propyne to Propene Promoted by Synergistic Effect of Surface Oxygen Vacancies and Hydride Species on Ceria

Zeyu Zhou, Lu Chen, Luyao Wang, Yun Liu, Peihong Cheng, Hongru Peng, Jun Cai, Qin Zhou, Yifan Wang, Nan Yang, Beibei Wang, Xue‐Qing Gong, Fan Yang, Zhi Liu

2023ACS Catalysis30 citationsDOI

Abstract

The high activity and selectivity of ceria in selective hydrogenation of alkynes have attracted much attention. However, the high operating temperature and the high H 2 /alkyne ratios required hamper the practical application of ceria catalysts, and the complex H 2 -ceria interaction as well as the ambiguous role of oxygen vacancies (O v ) prevent the further reactivity optimization of ceria-based catalysts. To elucidate the role of O v sites and hydride (Ce–H) species that can easily generate on ceria in the selective hydrogenation of propyne reaction, we constructed two model surfaces: CeO 2 (111) and CeO 2– x (111)–H with H – ions preoccupied in almost all of the O v sites. From the catalytic performance measurements, both surfaces exhibit high selectivity for propene, while the CeO 2– x (111)–H surface shows a propene production three times higher than CeO 2 (111). Using in situ ambient pressure X-ray photoelectron spectroscopy, we studied the formation and evolution of O v, Ce–H, and carbon-containing species on the two surfaces during the hydrogenation reaction and correlated with their catalytic performance. Assisted by density functional theory calculations, we found that surface-exposed O v sites are required for the formation of Ce–H species and the dissociative adsorption of propyne. Meanwhile, Ce–H species possess high hydrogenation activity and can help weaken the adsorption of CH 3 CCH 2 * to form gas-phase propene. The propene production and selectivity are optimal only in the coexistence of O v sites and Ce–H species with sufficient concentration. Our study has thus demonstrated the crucial synergetic roles of O v sites and hydride species on ceria for the selective hydrogenation reaction.

Topics & Concepts

PropynePropeneCatalysisSelectivityHydrideChemistryAdsorptionPhotochemistryInorganic chemistryAlkyneOxygenX-ray photoelectron spectroscopyPhysical chemistryHydrogenChemical engineeringOrganic chemistryEngineeringCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsCatalysis and Hydrodesulfurization Studies