Litcius/Paper detail

Arylthianthrenium Salts for Triplet Energy Transfer Catalysis

Yuan Cai, Triptesh Kumar Roy, Till J. B. Zähringer, Beatrice Lansbergen, Christoph Kerzig, Tobias Ritter

2024Journal of the American Chemical Society30 citationsDOIOpen Access PDF

Abstract

Sigma bond cleavage through electronically excited states allows synthetically useful transformations with two radical species. Direct excitation of simple aryl halides to form both aryl and halogen radicals necessitates UV-C light, so undesired side reactions are often observed and specific equipment is required. Moreover, only aryl halides with extended π systems and comparatively low triplet energy are applicable to synthetically useful energy transfer catalysis. Here we show the conceptual advantages of arylthianthrenium salts (ArTTs) for energy transfer catalysis with high energy efficiency compared to conventional aryl (pseudo)halides and their utility in arylation reactions of ethylene. The fundamental advance is enabled by the low triplet energy of ArTTs that may originate in large part from the electronic interplay between the distinct sulfur atoms in the tricyclic thianthrene scaffold, which is not accessible in either simple (pseudo)halides or other conventional sulfonium salts.

Topics & Concepts

ChemistryCatalysisEnergy transferPhotochemistryComputational chemistryOrganic chemistryChemical physicsRadical Photochemical ReactionsCO2 Reduction Techniques and CatalystsCatalytic C–H Functionalization Methods