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Leveraging the Stereochemical Complexity of Octahedral Diastereomeric-at-Metal Catalysts to Unlock Regio-, Diastereo-, and Enantioselectivity in Alcohol-Mediated C–C Couplings via Hydrogen Transfer

Jonathan Z. Shezaf, Catherine G. Santana, Eliezer Ortiz, Cole C. Meyer, Peng Liu, Ken Sakata, Kuo‐Wei Huang, Michael J. Krische

2024Journal of the American Chemical Society19 citationsDOIOpen Access PDF

Abstract

Experimental and computational studies illuminating the factors that guide metal-centered stereogenicity and, therefrom, selectivity in transfer hydrogenative carbonyl additions of alcohol proelectrophiles catalyzed by chiral-at-metal-and-ligand octahedral d 6 metal ions, iridium(III) and ruthenium(II), are described. To augment or invert regio-, diastereo-, and enantioselectivity, predominantly one from among as many as 15 diastereomeric-at-metal complexes is required. For iridium(III) catalysts, cyclometalation assists in defining the metal stereocenter, and for ruthenium(II) catalysts, iodide counterions play a key role. Whereas classical strategies to promote selectivity in metal catalysis aim for high-symmetry transition states, well-defined low-symmetry transition states can unlock selectivities that are otherwise difficult to achieve or inaccessible.

Topics & Concepts

ChemistryStereocenterDiastereomerRutheniumCatalysisTransfer hydrogenationCounterionIridiumSelectivityTransition metalCombinatorial chemistryEnantioselective synthesisMetalStereochemistryMedicinal chemistryOrganic chemistryIonAsymmetric Hydrogenation and CatalysisAsymmetric Synthesis and CatalysisSurface Chemistry and Catalysis
Leveraging the Stereochemical Complexity of Octahedral Diastereomeric-at-Metal Catalysts to Unlock Regio-, Diastereo-, and Enantioselectivity in Alcohol-Mediated C–C Couplings via Hydrogen Transfer | Litcius