Theoretical study of the microscopic solvation of alkali and alkaline-earth monohydroxides in (H2O)m (m ≤ 3) clusters

Rossa, Maximiliano; Ferrero, Juan Carlos; Cabanillas Vidosa, Ivan; Cobos, Carlos Jorge

Artículos de revistas

Fecha

2014-12

Registro en:

Cobos, Carlos Jorge; Cabanillas Vidosa, Ivan; Ferrero, Juan Carlos; Rossa, Maximiliano; Theoretical study of the microscopic solvation of alkali and alkaline-earth monohydroxides in (H2O)m (m ≤ 3) clusters; Elsevier Science; Chemical Physics Letters; 620; 12-2014; 19-24

0009-2614

http://hdl.handle.net/11336/31398

CONICET Digital

CONICET

http://repositorioslatinoamericanos.uchile.cl/handle/2250/1860540

Autor

Rossa, Maximiliano

Ferrero, Juan Carlos

Cabanillas Vidosa, Ivan

Cobos, Carlos Jorge

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

A density functional mPW1PW91 study of the most stable conformers of MOH(H2O)0–3 clusters (M = alkali or alkaline-earth atom) was performed, along with quantum chemistry CCSD(T,Full) calculations for M = Li and Be. The resulting binding energies for hydration, atom-charge and valence-electron distributions allow for a rationalization of the opposite trends in the cluster-size dependence of adiabatic/vertical ionization energies for the alkali and the alkaline-earth monohydroxides. The closed- and open-shell natures of the latter, respectively, determines their behavior during initial steps of their hydration processes, whereas the ionic/covalent character of their MOH bonds plays a minor role except for BeOH.

Materias

Alkali and Alkaline-Earth Monohydroxides

Hydration

Small water clusters

Ab initio calculations

Electronic Properties

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