Ti-Catalyzed Oxidative Amination Using Anilines

In this report, Ti-catalyzed transfer hydrogenation from anilines to alkynes is leveraged to generate nitrenes from anilines in the Ti-catalyzed 2+2+1 synthesis of N-aryl pyrroles. While there are myriad methods for accessing nitrene reactive intermediates in chemical synthesis, methods for the direct transformation of amines into nitrene equivalents are uncommon. This transfer hydrogenation-coupled 2+2+1 pyrrole synthesis is catalyzed by a recently-reported bis(phenoxide) Ti complex, (TPO)Ti(NMe2)2 (TPO = (3,3″-di-tert-butyl-5,5″-dimethyl-1,1':2',1″-terphenyl-2,2″-bis(olate)). Preliminary mechanistic insight indicates that a balance of the competition between alkyne insertion into titanacycle Ti-C bonds versus Ti-C aminolysis at several points along the catalytic cycle is critical for productive catalysis over unwanted side reactions such as alkyne hydroamination or alkyne cyclotrimerization.