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Factors that Impact Photochemical Cage Escape Yields


Factors that Impact Photochemical Cage Escape Yields

Abstract
The utilization of visible light to mediate chemical reactions in fluid solutions has applications that range from solar fuel production to medicine and organic synthesis. These reactions are typically initiated by electron transfer between a photoexcited dye molecule (a photosensitizer) and a redox-active quencher to yield radical pairs that are intimately associated within a solvent cage. Many of these radicals undergo rapid thermodynamically favored “geminate” recombination and do not diffuse out of the solvent cage that surrounds them. Those that do escape the cage are useful reagents that may undergo subsequent reactions important to the above-mentioned applications. The cage escape process and the factors that determine the yields remain poorly understood despite decades of research motivated by their practical and fundamental importance. Herein, state-of-the-art research on light-induced electron transfer and cage escape that has appeared since the seminal 1972 review by J. P. Lorand entitled “The Cage Effect” is reviewed. This review also provides some background for those new to the field and discusses the cage escape process of both homolytic bond photodissociation and bimolecular light induced electron transfer reactions. The review concludes with some key goals and directions for future research that promise to elevate this very vibrant field to even greater heights.

Citation
Factors that Impact Photochemical Cage Escape Yields Matthew J. Goodwin, John C. Dickenson, Alexia Ripak, Alexander M. Deetz, Jackson S. McCarthy, Gerald J. Meyer, and Ludovic Troian-Gautier Chemical Reviews Article ASAP DOI: 10.1021/acs.chemrev.3c00930


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