Amide Synthesis through the In Situ Generation of Chloro- and Imido-Phosphonium Salts
Charles D. Irving, Jack T. Floreancig, Sébastien Laulhé
Abstract
-chlorophthalimide and triphenylphosphine. Aliphatic, benzylic, and aromatic carboxylic acids can be transformed into their amide counter parts using primary and secondary amines. This functional group interconversion is achieved at room temperature in good to excellent yields. Mechanistic work shows the in situ formation of chloro- and imido-phosphonium salts that react as activating agents for carboxylic acids and generate an acyloxy-phosphonium species.
Topics & Concepts
PhosphoniumAmideChemistryTriphenylphosphineIn situOrganic chemistryPhosphonium saltCarboxylic acidPrimary (astronomy)CatalysisPhysicsAstronomyChemical Synthesis and AnalysisAdvanced Synthetic Organic ChemistryAsymmetric Hydrogenation and Catalysis