Iridium-Catalyzed, Site-Selective Silylation of Secondary C(sp<sup>3</sup>)–H Bonds in Secondary Alcohols and Ketones
Jake W. Wilson, Bo Su, Makoto Yoritate, Jake X. Shi, John F. Hartwig
Abstract
-1,3-diols by the silylation of secondary C-H bonds γ to oxygen and oxidation of the resulting oxasilolane. The silylation of secondary C-H bonds in secondary silyl ethers derived from alcohols or ketones is enabled by a catalyst formed from a simple bisamidine ligand. The silylation occurs with high selectivity at a secondary C-H bond γ to oxygen over distal primary or proximal secondary C-H bonds. Initial mechanistic investigations suggest that the source of the newly achieved reactivity is a long catalyst lifetime resulting from the high binding constant of the strongly electron-donating bisamidine ligand.
Topics & Concepts
ChemistrySilylationIridiumCatalysisReactivity (psychology)Ligand (biochemistry)StereoselectivitySelectivityMedicinal chemistryOrganic chemistryKetoneMedicineBiochemistryReceptorPathologyAlternative medicineCatalytic C–H Functionalization MethodsAsymmetric Hydrogenation and CatalysisCatalytic Cross-Coupling Reactions