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Controlling Selectivity in Plasmonic Catalysis: Switching Reaction Pathway from Hydrogenation to Homocoupling Under Visible‐Light Irradiation

Erandi Peiris, Sébastien Hanauer, Tien Le, Jiale Wang, Taha Salavati-fard, Paul Brasseur, Eric V. Formo, Bin Wang, Pedro H. C. Camargo

2022Angewandte Chemie International Edition41 citationsDOIOpen Access PDF

Abstract

Abstract Plasmonic catalysis enables the use of light to accelerate molecular transformations. Its application to the control reaction selectivity is highly attractive but remains challenging. Here, we have found that the plasmonic properties in AgPd nanoparticles allowed different reaction pathways for tunable product formation under visible‐light irradiation. By employing the hydrogenation of phenylacetylene as a model transformation, we demonstrate that visible‐light irradiation can be employed to steer the reaction pathway from hydrogenation to homocoupling. Our data showed that the decrease in the concentration of H species at the surface due to plasmon‐enhanced H 2 desorption led to the control in selectivity. These results provide important insights into the understanding of reaction selectivity with light, paving the way for the application of plasmonic catalysis to the synthesis of 1,3‐diynes, and bringing the vision of light‐driven transformations with target selectivity one step closer to reality.

Topics & Concepts

SelectivityPlasmonCatalysisPhenylacetylenePhotochemistryIrradiationPhotocatalysisChemistryVisible spectrumNanoparticlePlasmonic nanoparticlesNanotechnologyMaterials scienceOptoelectronicsOrganic chemistryNuclear physicsPhysicsGold and Silver Nanoparticles Synthesis and ApplicationsAdvanced Photocatalysis TechniquesQuantum Dots Synthesis And Properties
Controlling Selectivity in Plasmonic Catalysis: Switching Reaction Pathway from Hydrogenation to Homocoupling Under Visible‐Light Irradiation | Litcius