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Supported Pt Nanoparticles on Mesoporous Titania for Selective Hydrogenation of Phenylacetylene

Mingzhen Hu, Lei Jin, Yanliu Dang, Steven L. Suib, Jie He, Ben Liu

2020Frontiers in Chemistry19 citationsDOIOpen Access PDF

Abstract

Semi-hydrogenation of alkynes to alkenes is one of the most important industrial reactions. However, it remains technically challenging to obtain high alkene selectivity especially at a high alkyne conversion because of kinetically favorable over hydrogenation. In this contribution, we show that supported ultrasmall Pt nanoparticles (2.5 nm) on mesoporous TiO2 (Pt@mTiO2) remarkably improve catalytic performance towards semi-hydrogenation of phenylacetylene. Pt@mTiO2 is prepared by co-assembly of Pt and Ti precursors with silica colloidal templates via an evaporation-induced self-assembly process, followed by further calcination for thermal decomposition of Pt precursors and crystallization of mTiO2 simultaneously. The hydrogenation activity of Pt@mTiO2 is 2.5 times higher than that of commercial Pt/C. Styrene selectivity over Pt@mTiO2 remains 100% in a wide phenylacetylene conversion window (20-75%). The styrene selectivity is > 80% even at 100% phenylacetylene conversion while that of the commercial Pt/C is 0%. The remarkable styrene selectivity of the Pt@mTiO2 is derived from the weakened styrene adsorption strength on the atop Pt sites as observed by diffuse reflectance infrared Fourier transform spectroscopy with CO as a probe molecule (CO-DRIFTS). Our strategy provides a new avenue for promoting alkyne to alkene transformation in the kinetically unfavorable region through novel catalyst preparation.

Topics & Concepts

PhenylacetyleneStyreneSelectivityCatalysisMesoporous materialMaterials scienceAlkeneCalcinationAlkyneChemical engineeringNanoparticlePhotochemistryInorganic chemistryChemistryOrganic chemistryNanotechnologyCopolymerPolymerEngineeringComposite materialCatalytic Processes in Materials ScienceCatalysis and Hydrodesulfurization StudiesCatalysis for Biomass Conversion
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