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Photostable Ruthenium(II) Isocyanoborato Luminophores and Their Use in Energy Transfer and Photoredox Catalysis

Lucius Schmid, Christoph Kerzig, Alessandro Prescimone, Oliver S. Wenger

2021JACS Au70 citationsDOIOpen Access PDF

Abstract

MLCT energies (up to 2.50 eV) that are more typical for cyclometalated iridium(III) complexes. Through variation of their α-diimine ligands, nonradiative excited-state relaxation pathways involving higher-lying metal-centered states can be controlled, and their luminescence quantum yields and MLCT lifetimes can be optimized. These combined properties make the respective isocyanoborato complexes amenable to photochemical reactions for which common ruthenium(II)-based sensitizers are unsuited, due to a lack of sufficient triplet energy or excited-state redox power. Specifically, this includes photoisomerization reactions, sensitization of nickel-catalyzed cross-couplings, pinacol couplings, and oxidative decarboxylative C-C couplings. Our work is relevant in the greater context of tailoring photoactive coordination compounds to current challenges in synthetic photochemistry and solar energy conversion.

Topics & Concepts

RutheniumPhotoredox catalysisPhotochemistryDiimineChemistryReductive eliminationExcited stateCatalysisPhotocatalysisOrganic chemistryPhysicsNuclear physicsRadical Photochemical ReactionsCatalytic C–H Functionalization MethodsPolyoxometalates: Synthesis and Applications
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