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Rational Design of Triplet Sensitizers for the Transfer of Excited State Photochemistry from UV to Visible

Luke D. Elliott, Surajit Kayal, Michael W. George, Kevin I. Booker‐Milburn

2020Journal of the American Chemical Society148 citationsDOIOpen Access PDF

Abstract

Time Dependent Density Functional Theory has been used to assist the design and synthesis of a series thioxanthone triplet sensitizers. Calculated energies of the triplet excited state (ET) informed both the type and position of auxochromes placed on the thioxanthone core, enabling fine-tuning of the UV–vis absorptions and associated triplet energies. The calculated results were highly consistent with experimental observation in both the order of the λmax and ET values. The synthesized compounds were then evaluated for their efficacies as triplet sensitizers in a variety of UV and visible light preparative photochemical reactions. The results of this study exceeded expectations; in particular [2 + 2] cycloaddition chemistry that had previously been sensitized in the UV was found to undergo cycloaddition at 455 nm (blue) with a 2- to 9-fold increase in productivity (g/h) relative to input power. This study demonstrates the ability of powerful modern computational methods to aid in the design of successful and productive triplet sensitized photochemical reactions.

Topics & Concepts

ChemistryThioxanthonePhotochemistryTriplet stateExcited stateCycloadditionDensity functional theoryVisible spectrumSinglet stateComputational chemistryMoleculeOrganic chemistryOptoelectronicsAtomic physicsCatalysisPhysicsPolymerizationPhotopolymerPolymerRadical Photochemical ReactionsOxidative Organic Chemistry ReactionsPhotochromic and Fluorescence Chemistry
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