Molecular Orbital Calculations of Hydrogen Bonding in Ammonia - Formic Acid System in the Presence of Electric Fields

Parra-Mouchet, JE; Zapata-Torres, G; Fink, WH; Nash, CP

Abstract

The effects of electric fields on hydrogen bonding in ammonia - formic acid system, are examined with STO-3G and 6-31 G(d) wavefunctions. This system was used in a previous work to model hydrogen bonding in crystalline amino acids and the calculations were performed at HF / STO-3G level. The results on the relative position of the tautomeric equilibrium between the neutral and zwitterionic forms were explained in terms of the relative stabilization of the ionic partners as a function of their placement in positive and negative wells created by the external electric field. In order to rationalize those results at electronic structure level, in this paper we analyze the response of the molecular orbitals implicated in the hydrogen bridge, N

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Título según WOS: Molecular orbital calculations of hydrogen bonding in ammonia - Formic acid system in the presence of electric fields
Título según SCOPUS: Molecular orbital calculations of hydrogen bonding in ammonia - Formic acid system in the presence of electric fields
Título según SCIELO: Molecular Orbital Calculations of Hydrogen Bonding in Ammonia - Formic Acid System in the Presence of Electric Fields
Título de la Revista: Journal of the Chilean Chemical Society
Volumen: 49
Número: 1
Editorial: SOC CHILENA QUIMICA
Fecha de publicación: 2004
Página de inicio: 75
Página final: 81
Idioma: English
DOI:

10.4067/S0717-97072004000100013

Notas: ISI, SCIELO, SCOPUS