Cobalt-Catalyzed, Directed Intermolecular C–H Bond Functionalization for Multiheteroatom Heterocycle Synthesis: The Case of Benzotriazine
Wei-Ping Wu, Shuaixin Fan, Tielei Li, Lili Fang, Benfa Chu, Jin Zhu
Abstract
Transition-metal-catalyzed, directed intermolecular C-H bond functionalization is synthetically useful but heavily underexplored in multiheteroatom heterocycle synthesis. Herein we report a cobalt catalytic method for the formation of a three-nitrogen-bearing benzotriazine scaffold via the coupling of arylhydrazine and oxadiazolone. This synthetic protocol features a low-cost base metal catalyst, a maximum number of heteroatoms built into a heterocycle, a distinct synthetic logic for benzotriazines, a superior step economy, and a broad substrate scope.
Topics & Concepts
CatalysisChemistryIntermolecular forceSurface modificationHeteroatomCombinatorial chemistryCobaltTransition metalSubstrate (aquarium)Organic chemistryMoleculeRing (chemistry)Physical chemistryOceanographyGeologyCatalytic C–H Functionalization MethodsCatalytic Cross-Coupling ReactionsSynthesis and Catalytic Reactions