Abstract
AbstractThe cyclization of amides derived from ethenetricarboxylic acid bearing tert‐amino groups has been examined. The amides were efficiently converted to piperidine derivatives (2‐piperidones) upon heating in a polar solvent (e. g., DMSO or DMF) via intramolecular hydride transfer and subsequent ring closure. The reaction was less efficient in the presence of a Lewis acid. The reactivity varies depending on the alkyl substituents of tert‐amino groups, probably due to steric effects. The hydride transfer/cyclization mechanism was investigated by DFT calculations. The reaction of the carboxylic acid and relatively bulky diamines such as diisopropyl‐substituted diamine in the presence of amide condensation reagents at 60 °C gave the piperidine derivatives in a one‐pot reaction. The reaction of the diisopropylamine substituted piperidine product with primary amines gave secondary amine‐substituted piperidines.
Published Version
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