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Biomimetic Dehydrogenative Intermolecular Formal Allylic Amidation of Branched α‐Olefins

Xiaoyang Fu, Jiarui Tian, Mingjun Zhang, Yue Jing, Yuxiu Liu, Hongjian Song, Qingmin Wang

2024Advanced Science12 citationsDOIOpen Access PDF

Abstract

Abstract Allylic amide moieties are commonly encountered in natural products and are privileged structures in pharmaceuticals and agrochemicals. Moreover, because allylic amide can be to converted into an array of high‐value motifs, they have been widely employed in organic synthesis. However, the development of catalytic systems for intermolecular allylic amidation of olefins, particularly branched α ‐olefins, has proven to be challenging. Here, a biomimetic, synergistic catalytic method is reported that combines photoredox, cobalt, and Brønsted base catalysis for the synthesis of substituted allylic amides from branched α ‐olefins and simple imides without using oxidants. This low‐cost, operationally simple method features a broad substrate scope and excellent functional group compatibility. Moreover, it is successfully used for the functionalization of several structurally complex molecules demonstrating the method's potential utility for medicinal chemistry applications. Mechanistic studies revealed that C( sp 3 )─N bond formation is mediated by a nitrogen‐centered radical intermediate, which is generated via a sequence involving deprotonation and single‐electron oxidation.

Topics & Concepts

Allylic rearrangementChemistryAmideCombinatorial chemistryCatalysisDeprotonationIntermolecular forceMoleculeOrganic chemistryIonCatalytic C–H Functionalization MethodsRadical Photochemical ReactionsChemical Synthesis and Analysis
Biomimetic Dehydrogenative Intermolecular Formal Allylic Amidation of Branched α‐Olefins | Litcius