Conjugate addition-enantioselective protonation to forge tertiary stereocentres α to azaarenes via cooperative hydrogen atom transfer and chiral hydrogen-bonding catalysis

Abstract

Cooperative hydrogen atom transfer and chiral hydrogen-bonding catalysis as a new platform for the asymmetric synthesis of azaarene derivatives is reported. By using a tetrabutylammonium decatungstate as the photocatalyst and a chiral phosphoric acid as the hydrogen-bonding catalyst, transformations of a variety of commercially available hydrocarbons and silanes with diverse α-branched 2-vinylazaarenes could efficiently experience a tandem radical conjugate addition and enantioselective protonation process, providing a convenient and fully atom economical approach to access a range of valuable enantioenriched α-tertiary azaarenes in high yields with good to excellent enantioselectivities (up to 93% ee). Through the direct use of tert-butyl methylcarbamate as the feedstock, this method enables a highly practical and concise synthesis of the enantiomerically pure medicinal molecule pheniramine (Avil).