Litcius/Paper detail

Modular synthesis of α-branched secondary alkylamines <i>via</i> visible-light-mediated carbonyl alkylative amination

Milo A. Smith, Ryan Kang, Roopender Kumar, Biswarup Roy, Matthew J. Gaunt

2024Chemical Science17 citationsDOIOpen Access PDF

Abstract

The development of methods for the assembly of secondary α-alkyl amines remains a central challenge to chemical synthesis because of their critical importance in modulating the physical properties of biologically active molecules. Despite decades of intensive research, chemists still rely on selective N-alkylation and carbonyl reductive amination to make most amine products. Here we report the further evolution of a carbonyl alkylative amination process that, for the first time, brings together primary amines, aldehydes and alkyl iodides in a visible-light-mediated multicomponent coupling reaction for the synthesis of a wide range of α-branched secondary alkylamines. In addition to exploring the tolerance and limitations in each reaction component, we also report preliminary applications to the telescoped synthesis of α-branched N-heterocycles and an N-alkylation protocol that is selective for primary over cyclic secondary amines. Our data support a mechanism involving addition of an alkyl radical to an uncharged alkyl imine which, to the best of our knowledge, has not previously been described. We believe that this method will enable practitioners of synthetic chemistry in academic and industrial settings to approach the synthesis of these important molecules in a manner that is streamlined compared to established approaches.

Topics & Concepts

AminationAlkylationPrimary (astronomy)ChemistryReductive aminationCyclic aminesCombinatorial chemistryAmine gas treatingOrganic chemistryModular designCatalysisComputer scienceOperating systemAstronomyPhysicsRadical Photochemical ReactionsCatalytic C–H Functionalization MethodsSulfur-Based Synthesis Techniques