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Cobalt-Catalyzed Carbon–Heteroatom Transfer Enables Regioselective Tricomponent 1,4-Carboamination

Kaitong Zhuang, Graham C. Haug, Yangyang Wang, Shuyu Yin, Huiying Sun, Siwen Huang, Ramon Trevino, Kunzhi Shen, Yao Sun, Chao Huang, Bin Qin, Yongxiang Liu, Maosheng Cheng, Oleg V. Larionov, Shengfei Jin

2024Journal of the American Chemical Society54 citationsDOI

Abstract

Tricomponent cobalt(salen)-catalyzed carbofunctionalization of unsaturated substrates by radical-polar crossover has the potential to streamline access to broad classes of heteroatom-functionalized synthetic targets, yet the reaction platform has remained elusive, despite the well-developed analogous hydrofunctionalizations mediated by high-valent alkylcobalt intermediates. We report herein the development of a cobalt(salen) catalytic system that enables carbofunctionalization. The reaction entails a tricomponent decarboxylative 1,4-carboamination of dienes and provides a direct route to aromatic allylic amines by obviating preformed allylation reagents and protection of oxidation-sensitive aromatic amines. The catalytic system merges acridine photocatalysis with cobalt(salen)-catalyzed regioselective 1,4-carbofunctionalization that facilitates the crossover of the radical and polar phases of the tricomponent coupling process, revealing critical roles of the reactants, as well as ligand effects and the nature of the formal high-valent alkylcobalt species on the chemo- and regioselectivity.

Topics & Concepts

ChemistryHeteroatomCobaltRegioselectivityCatalysisOrganic chemistryCarbon fibersRing (chemistry)Composite materialComposite numberMaterials scienceCatalytic C–H Functionalization MethodsAsymmetric Hydrogenation and CatalysisCatalytic Cross-Coupling Reactions