Intermolecular enantioselective amination of unactivated C(sp3)–H bonds
▶Summary
Alkanes, the principal components of natural gas and widely produced by the petrochemical industry, represent a significant carbon source for chemical synthesis. However, due to the low reactivity of the C(sp3)–H bond, converting alkanes into higher-value products is challenging and remains one of the Holy Grails of chemistry. In this context, transition metal-catalyzed C(sp3)–H bond amination has emerged as a powerful tool for alkane derivatization. However, this transformation is almost exclusively limited to the functionalization of activated C–H bonds, such as those at benzylic positions. Therefore, the development of catalytic systems that enable the exclusive regio- and stereoselective functionalization of unactivated C–H bonds in the presence of more reactive sites would represent a groundbreaking advancement in organic synthesis.The Rhod-to-N project (intermolecular enantioselective amination of unactivated C(sp3)–H bonds) aims to push these boundaries by discovering efficient enantioselective rhodium-catalyzed methods for the transformation of aryl alkanes into β-arylethylamines and α-methylamines, which serve as privileged chiral building blocks for the development of novel life-saving medicines. To achieve this ambitious goal the project will focus on accomplishing the following objectives:1) Development of the intermolecular enantioselective amination of homobenzylic sites.2) Intermolecular enantioselective amination of terminal methylenes.3) Continuous flow applications employing reusable catalytic columns.The successful completion of this project will contribute to the innovative valorization of low-cost aryl alkanes, yielding significant scientific, societal, and economic impacts, and bolstering European competitiveness in the sustainable production of fine chemicals. Additionally, the project will offer substantial growth opportunities to the researcher through high-value scientific and complementary training.