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Photoinduced Strong Metal–Support Interaction for Enhanced Catalysis

Hao Chen, Zhenzhen Yang, Xiang Wang, Felipe Polo‐Garzon, Phillip Halstenberg, Tao Wang, Xian Suo, Shize Yang, Harry M. Meyer, Zili Wu, Sheng Dai

2021Journal of the American Chemical Society179 citationsDOIOpen Access PDF

Abstract

Strong metal–support interaction (SMSI) construction is a pivotal strategy to afford thermally robust nanocatalysts in industrial catalysis, but thermally induced reactions (>300 °C) in specific gaseous atmospheres are generally required in traditional procedures. In this work, a photochemistry-driven methodology was demonstrated for SMSI construction under ambient conditions. Encapsulation of Pd nanoparticles with a TiO x overlayer, the presence of Ti 3+ species, and suppression of CO adsorption were achieved upon UV irradiation. The key lies in the generation of separated photoinduced reductive electrons (e – ) and oxidative holes (h + ), which subsequently trigger the formation of Ti 3+ species/oxygen vacancies (O v ) and then interfacial Pd–O v –Ti 3+ sites, affording a Pd/TiO 2 SMSI with enhanced catalytic hydrogenation efficiency. The as-constructed SMSI layer was reversible, and the photodriven procedure could be extended to Pd/ZnO and Pt/TiO 2 .

Topics & Concepts

OverlayerChemistryCatalysisNanomaterial-based catalystPhotochemistryMetalOxygenAdsorptionNanoparticleIrradiationChemical engineeringPhysical chemistryOrganic chemistryNuclear physicsPhysicsEngineeringAdvanced Photocatalysis TechniquesCatalytic Processes in Materials ScienceNanomaterials for catalytic reactions
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