Regioselective Hydroxylation of Unsymmetrical Ketones Using Cu, HO, and Imine Directing Groups via Formation of an Electrophilic Cupric Hydroperoxide Core.

Herein, we describe the regioselective functionalization of unsymmetrical ketones using imine directing groups, Cu, and HO. The C-H hydroxylation of the substrate-ligands derived from 2-substituted benzophenones occurred exclusively at the γ-position of the unsubstituted ring due to the formation of only one imine stereoisomer. Conversely, the imines derived from 4-substituted benzophenones produced / mixtures that upon reacting with Cu and HO led to two γ-C-H hydroxylation products. Contrary to our initial hypothesis, the ratio of the hydroxylation products did not depend on the ratio of the / isomers but on the electrophilicity of the reactive [LCuOOH]. A detailed mechanistic analysis suggests a fast isomerization of the imine substrate-ligand binding the CuOOH core before the rate-determining electrophilic aromatic hydroxylation. Varying the benzophenone substituents and/or introducing electron-donating and electron-withdrawing groups on the 4-position of pyridine of the directing group allowed for fine-tuning of the electrophilicity of the mononuclear [LCuOOH] to reach remarkable regioselectivities (up to 91:9 favoring the hydroxylation of the electron-rich arene ring). Lastly, we performed the C-H hydroxylation of alkyl aryl ketones, and like in the unsymmetrical benzophenones, the regioselectivity of the transformations (sp vs sp) could be controlled by varying the electronics of the substrate and/or the directing group.