Home Chemistry Heterocyclic Building Blocks Piperidines Benzyl Piperidin-4-Ylcarbamate
Hydrolysis: Under acidic or basic conditions, the carbamate functional group (-OC(=O)NHR) can undergo hydrolysis to yield an amine and a carboxylic acid.
Reduction: The carbamate can be reduced to the corresponding amine using reducing agents like lithium aluminum hydride (LiAlH4) or sodium borohydride (NaBH4).
Substitution Reactions: The benzyl group is susceptible to various substitution reactions under appropriate conditions.
Oxidation: Depending on the conditions, both the piperidine ring and the benzyl group can potentially undergo oxidation reactions.
Hofmann Rearrangement: Under certain conditions, the carbamate group can participate in the Hofmann rearrangement, leading to isocyanates.
Cleavage of the Piperidine Ring: The piperidine ring can be cleaved under certain reaction conditions, yielding different products.
Formation of Complexes: Depending on the metal ions present, this compound may form complexes with various metal salts.
Amidation Reactions: Depending on the reaction conditions, the carbamate group may undergo amidation reactions.
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