Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/52090
Título: Interactions of ionic liquids and acetone: Thermodynamic properties, quantum-chemical calculations, and NMR analysis
Autores/as: Ruiz, Elia
Ferro, Victor R.
Palomar, Jose
Ortega, Juan 
Rodriguez, Juan Jose
Palabras clave: Hydrogen-Bonding Interactions
Binary-Systems
Cosmo-Rs
Extractive Distillation
Excess Enthalpy, et al.
Fecha de publicación: 2013
Editor/a: 1520-6106
Publicación seriada: Journal of Physical Chemistry B 
Resumen: The interactions between ionic liquids (ILs) and acetone have been studied to obtain a further understanding of the behavior of their mixtures, which generally give place to an exothermic process, mutual miscibility, and negative deviation of Raoult's law. COSMO-RS was used as a suitable computational method to systematically analyze the excess enthalpy of IL-acetone systems (>300), in terms of the intermolecular interactions contributing to the mixture behavior. Spectroscopic and COSMO-RS results indicated that acetone, as a polar compound with strong hydrogen bond acceptor character, in most cases, establishes favorable hydrogen bonding with ILs. This interaction is strengthened by the presence of an acidic cation and an anion with dispersed charge and non-HB acceptor character in the IL. COSMO-RS predictions indicated that gas-liquid and vapor-liquid equilibrium data for IL-acetone systems can be finely tuned by the IL selection, that is, acting on the intermolecular interactions between the molecular and ionic species in the liquid phase. NMR measurements for IL-acetone mixtures at different concentrations were also carried out. Quantum-chemical calculations by using molecular dusters of acetone and IL species were finally performed. These results provided additional evidence of the main role played by hydrogen bonding in the behavior of systems containing ILs and HB acceptor compounds, such as acetone.
URI: http://hdl.handle.net/10553/52090
ISSN: 1520-6106
DOI: 10.1021/jp402331y
Fuente: Journal of Physical Chemistry B[ISSN 1520-6106],v. 117, p. 7388-7398
Colección:Artículos
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