Direct access to polyfluorinated lactams is achieved through Ca(NTf2)2 catalysis using either the reductive amination of biomass-derived keto acids with amines or the reductive amination of amino acids with carbonyl derivatives under solvent-free conditions. Both versatile methods exhibit chemospecificity and good substrate tolerance, producing five- to eight-membered lactams with diverse functionality and substitution patterns. The robustness of this methodology is further demonstrated through its application in late-stage functionalization of drug molecules.
Direct access to the polyfluorinated lactams through Ca(NTf2)2 catalyzed by either the reductive amination of biomass-derived keto acids with amines or the reductive amination of amino acids with carbonyl derivatives under solvent-free conditions is realized. The two versatile protocols display chemospecificity and good substrate tolerance to deliver five- to eight-membered lactams with diverse functionality and substitution patterns. The robustness of the methodology is further demonstrated by subsequent application in the late-stage functionalization of drug molecules.
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