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Visible Light-Induced Borylation of C–O, C–N, and C–X Bonds

Shengfei Jin, Hang T. Dang, Graham C. Haug, Ru He, Viet D. Nguyen, Vu T. Nguyen, Hadi D. Arman, Kirk S. Schanze, Oleg V. Larionov

2020Journal of the American Chemical Society181 citationsDOIOpen Access PDF

Abstract

Boronic acids are centrally important functional motifs and synthetic precursors. Visible light-induced borylation may provide access to structurally diverse boronates, but a broadly efficient photocatalytic borylation method that can effect borylation of a wide range of substrates, including strong C-O bonds, remains elusive. Herein, we report a general, metal-free visible light-induced photocatalytic borylation platform that enables borylation of electron-rich derivatives of phenols and anilines, chloroarenes, as well as other haloarenes. The reaction exhibits excellent functional group tolerance, as demonstrated by the borylation of a range of structurally complex substrates. Remarkably, the reaction is catalyzed by phenothiazine, a simple organic photocatalyst with MW < 200 that mediates the previously unachievable visible light-induced single electron reduction of phenol derivatives with reduction potentials as negative as approximately - 3 V versus SCE by a proton-coupled electron transfer mechanism. Mechanistic studies point to the crucial role of the photocatalyst-base interaction.

Topics & Concepts

BorylationChemistryPhotocatalysisPhotochemistryVisible spectrumCombinatorial chemistryElectron transferOrganic synthesisCatalysisOrganic chemistryArylOptoelectronicsAlkylPhysicsRadical Photochemical ReactionsCatalytic C–H Functionalization MethodsSulfur-Based Synthesis Techniques