A theoretical study on the mechanism of the base-promoted decomposition of N-chloro,N-methylethanolamine
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Otros documentos de la autoría: Ramos, Daniel R.; Castillo, Raquel; Canle López, Moisés; García Dopico, María Victoria; Andres, Juan; Santaballa López, J. Arturo
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Título
A theoretical study on the mechanism of the base-promoted decomposition of N-chloro,N-methylethanolamineAutoría
Fecha de publicación
2009Editor
Royal Society of ChemistryISSN
1477-0520Cita bibliográfica
RAMOS, Daniel R., et al. A theoretical study on the mechanism of the base-promoted decomposition of N-chloro, N-methylethanolamine. Organic & biomolecular chemistry, 2009, vol. 7, no 9, p. 1807-1814.Tipo de documento
info:eu-repo/semantics/articleVersión de la editorial
https://pubs.rsc.org/en/content/articlehtml/2009/ob/b820006hVersión
info:eu-repo/semantics/publishedVersionPalabras clave / Materias
Resumen
The first step of the base-promoted decomposition of N-chloro,N-methylethanolamine in aqueous
solution (CH3N(Cl)CH2CH2OH + HO- →imine + Cl- + H2O (+ CH2O)→amine + aldehyde) is
investigated at the MP2/6-31++G(d,p) ... [+]
The first step of the base-promoted decomposition of N-chloro,N-methylethanolamine in aqueous
solution (CH3N(Cl)CH2CH2OH + HO- →imine + Cl- + H2O (+ CH2O)→amine + aldehyde) is
investigated at the MP2/6-31++G(d,p) computing level. Solvation is included by using both a
microsolvated model, in which two explicit water molecules simulate the specific solvent effects, and a
hybrid cluster-continuum model, by applying a polarized continuum on the previous results, to account
for the bulk effect of the solvent. Four alternative pathways (bimolecular fragmentation, Hofmann,
Zaitsev and intramolecular eliminations) are possible for the rate-limiting step of this base-promoted
decomposition. These reactive processes are bimolecular asynchronous concerted reactions. The
common feature of the four pathways is the proton transfer to HO- being more advanced than all other
molecular events, whereas imine formation is delayed. Non-reactive cyclic arrangements involving one
of the explicit water molecules are found at transition structures of Hofmann and Zaitsev eliminations,
such water molecule acting both as H+ donor and acceptor. Although MP2 calculations misjudge the
absolute activation Gibbs free energy values, this computational level adequately predicts the
enhancement in the decomposition rate due to the presence of the -OH group [-]
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Organic & biomolecular chemistry, 2009, v. 7Derechos de acceso
© Royal Society of Chemistry 2009
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