In this letter, we describe a mild,
functional group-tolerant reductive
Nef reaction that utilizes CS2 and an amidine or guanidine
base to sequentially cleave N–O bonds. These conditions transform
secondary nitroalkanes to ketones via an isolable oxime with minimal
erosion at labile stereogenic carbons, show excellent compatibility
with groups sensitive to oxidizing or reducing conditions, display
good scalability, and are well-suited for generating useful 3-pyrrolidinone
motifs from readily accessible 1,3-dipolar cycloaddition products.
Herein a bimetallic radical redox-relay strategy is employed to generate alkyl radicals under mild conditions with titanium(III) catalysis and terminated via hydrogen atom transfer with cobalt(II) catalysis to enact base-free isomerizations of N-Bz aziridines to N-Bz allylic amides. This reaction provides an alternative strategy for the synthesis of allylic amides from alkenes via a three-step sequence to accomplish a formal transpositional allylic amination.
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