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Abstract
Introduction of alkyl substituents onto nucleophilic nitrogen atoms in amines is a central synthetic strategy for increasing molecular complexity and structural diversity in medicinal chemistry, organic synthesis, and materi-als science. Although the direct transfer of a stereogenic alkyl group onto a nitrogen atom by N-alkylation is one of the most efficient approaches to asymmetric C(sp3)–N bond formation, few methods are available for the enan-tioconvergent N-alkylation of amines with racemic alkyl transfer reagents. We report herein, a previously unex-plored enantioconvergent decarboxylative N-alkylation of aromatic amines with racemic carboxylic acids. The reaction is enabled by a merger of acridine photocatalysis with Co(salen)-catalyzed asymmetric radical–polar crossover (RPC). The study provides a simple synthetic segway to medicinally and synthetically valuable α-chiral benzylic amines and elucidates the structural, electronic, and bonding effects that govern the stereocontrol imparted by the privileged Co(salen)-based asymmetric RPC catalytic system.
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Characterization, experimental and computational data
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