Orientador(es)
Resumo(s)
New secondary aryl N-pyridylcarbamates were prepared by reaction of the aminopyridine anion with aryl chloroformates and their hydrolysis was studied over the pH range from 12 to 13.7. The pH-rate pro le points to an El1cB mechanism, involving pre-equilibrium deprotonation of the nitrogen atom to form an anion that undergoes rate-limiting decomposition into pyridyl isocyanate and a phenoxide ion. Further reaction of the highly reactive isocyanate with water affords N-pyridylcarbamic acid, which spontaneously decomposes to aminopyridine and carbon dioxide. The absence of significant base catalysis and the isolation of a new product resulting from trapping of the intermediate with the base piperidine are also consistent with an elimination-addition mechanism. Finally the observed substituent effect (sigma(-)) gives rho 2.45 which is in accordance with a rate-determining departure of the phenoxide group from the anion intermediate formed in a pre-equilibrium step. Blocking the Elcb mechanism of the secondary carbamates by introduction of N,N-disubstitution in the substrate led to a rate-limiting decrease of ca. 10(6).
Descrição
Palavras-chave
Chemistry, Organic Chemistry, Physical
Contexto Educativo
Citação
JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2. - n. 6 (2002), p. 1162-1165
Editora
ROYAL SOC CHEMISTRY