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Mechanism of Cu-Catalyzed Iododeboronation: A Description of Ligand-Enabled Transmetalation, Disproportionation, and Turnover in Cu-Mediated Oxidative Coupling Reactions

Matthew J. Andrews, Ambre Carpentier, Alexandra M. Z. Slawin, David B. Cordes, Stuart A. Macgregor, Allan J. B. Watson

2023ACS Catalysis18 citationsDOIOpen Access PDF

Abstract

We report a combined experimental and computational study of the mechanism of the Cu-catalyzed arylboronic acid iododeboronation reaction. A combination of structural and density functional theory (DFT) analyses has allowed determination of the identity of the reaction precatalyst with insight into each step of the catalytic cycle. Key findings include a rationale for ligand (phen) stoichiometry related to key turnover events-the ligand facilitates transmetalation via H-bonding to an organoboron boronate generated in situ and phen loss/gain is integral to the key oxidative events. These data provide a framework for understanding ligand effects on these key mechanistic processes, which underpin several classes of Cu-mediated oxidative coupling reactions.

Topics & Concepts

TransmetalationDisproportionationCatalytic cycleLigand (biochemistry)ChemistryCatalysisReductive eliminationOxidative phosphorylationOxidative additionDensity functional theoryOxidative coupling of methaneCombinatorial chemistryReaction mechanismComputational chemistryPhotochemistryOrganic chemistryReceptorBiochemistryCatalytic Cross-Coupling ReactionsCatalytic C–H Functionalization MethodsOrganoboron and organosilicon chemistry
Mechanism of Cu-Catalyzed Iododeboronation: A Description of Ligand-Enabled Transmetalation, Disproportionation, and Turnover in Cu-Mediated Oxidative Coupling Reactions | Litcius