Sensitizer-controlled photochemical reactivity<i>via</i>upconversion of red light
Felix Glaser, Oliver S. Wenger
Abstract
isomerization of an olefin, a [2 + 2] cycloaddition, an aryl ether to ester rearrangement, and a Newman-Kwart rearrangement. This oxidative substrate activation stands in contrast to the reactivity with a copper(i) photosensitizer, where photoinduced electron transfer generates the DCA radical anion, which upon further excitation triggers reductive dehalogenations and detosylations. Our study provides the proof-of-concept for controlling the outcome of a red-light driven biphotonic reaction by altering the photosensitizer, and this seems relevant in the greater context of tailoring photochemical reactivities.
Topics & Concepts
Photon upconversionPhotochemistryReactivity (psychology)Red lightChemistryOrganic chemistryIonMedicineBiologyPathologyAlternative medicineBotanyRadical Photochemical ReactionsLuminescence and Fluorescent MaterialsCatalytic C–H Functionalization Methods