Daniel R. Ramos scite author profile

The base-assisted decomposition of (N-X),N-methylethanolamine (X = Cl, Br) takes place mainly through two concurrent processes: a fragmentation and an intramolecular elimination. The global process follows second order kinetics, first order relative to both (N-X),N-methylethanolamine and base. Interaction of the base with the ionizable hydroxylic hydrogen triggers the reaction. The intramolecular elimination pathway leads to formaldehyde and 2-aminoethanol as reaction products via base-assisted proton transfer from the methyl to the partially unprotonated hydroxylic oxygen, with loss of halide. Meanwhile, the fragmentation pathway leads to methylamine and two equivalents of formaldehyde via bimolecular base-promoted concerted breakage of the molecule into formaldehyde, halide ion and N-methylmethanimine. Kinetic evidences allow a crude estimation of the concertedness and characterization of the transition structure for both processes, which are slightly asynchronous, the proton transfer to the base taking place ahead of the rest of the molecular events. The degree of asynchroneity increases as the bases become weaker. Electronic structure calculations, at the B3LYP/6-31++G** level, on the fragmentation pathway support the proposed mechanism.

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Myeloperoxidase-catalyzed chlorination: The quest for the active species

Ramos

García

Canle

et al. 2008

Journal of Inorganic Biochemistry

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Density functional study of the Hoffmann elimination of (N-Cl),N-methylethanolamine in gas phase and in aqueous solution

Ramos

Castillo

García

et al. 2006

Chemical Physics Letters

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Daniel R. Ramos

Myeloperoxidase-catalyzed taurine chlorination: Initial versus equilibrium rate

A DFT study on the microscopic ionization of cysteine in water

Understanding the mechanism of base-assisted decomposition of (N-halo),N-alkylalcoholamines

Myeloperoxidase-catalyzed chlorination: The quest for the active species

Density functional study of the Hoffmann elimination of (N-Cl),N-methylethanolamine in gas phase and in aqueous solution

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