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Interconversion of Atomically Dispersed Platinum Cations and Platinum Clusters in Zeolite ZSM-5 and Formation of Platinum <i>gem</i>-Dicarbonyls

Noah Felvey, Jiawei Guo, Rachita Rana, Le Xu, Simon R. Bare, Bruce C. Gates, Alexander Katz, Ambarish Kulkarni, Ron C. Runnebaum, Coleman X. Kronawitter

2022Journal of the American Chemical Society52 citationsDOI

Abstract

Catalysts composed of platinum dispersed on zeolite supports are widely applied in industry, and coking and sintering of platinum during operation under reactive conditions require their oxidative regeneration, with the platinum cycling between clusters and cations. The intermediate platinum species have remained only incompletely understood. Here, we report an experimental and theoretical investigation of the structure, bonding, and local environment of cationic platinum species in zeolite ZSM-5, which are key intermediates in this cycling. Upon exposure of platinum clusters to O2 at 700 °C, oxidative fragmentation occurs, and Pt2+ ions are stabilized at six-membered rings in the zeolite that contain paired aluminum sites. When exposed to CO under mild conditions, these Pt2+ ions form highly uniform platinum gem-dicarbonyls, which can be converted in H2 to Ptδ+ monocarbonyls. This conversion, which weakens the platinum–zeolite bonding, is a first step toward platinum migration and aggregation into clusters. X-ray absorption and infrared spectra provide evidence of the reductive and oxidative transformations in various gas environments. The chemistry is general, as shown by the observation of platinum gem-dicarbonyls in several commercially used zeolites (ZSM-5, Beta, mordenite, and Y).

Topics & Concepts

ChemistryPlatinumZeoliteZSM-5CatalysisInorganic chemistryOrganic chemistryCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsZeolite Catalysis and Synthesis
Interconversion of Atomically Dispersed Platinum Cations and Platinum Clusters in Zeolite ZSM-5 and Formation of Platinum <i>gem</i>-Dicarbonyls | Litcius