Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/4331
Título
A density functional theory insight towards the rational design of ionic liquids for SO2 capture
Publicado en
Physical Chemistry Chemical Physics. 2015, V. 17, n. 20, p. 13559--13574
Editorial
Royal Society of Chemistry
Fecha de publicación
2015-05
Abstract
A systematic density functional theory (DFT) analysis has been carried out to obtain information at the molecular level on the key parameters related to efficient SO2 capture by ionic liquids (ILs). A set of 55 ILs, for which high gas solubility is expected, has been selected. SO2 solubility of ILs was firstly predicted based on the COSMO-RS (Conductor-like Screening Model for Real Solvents) method, which provides a good prediction of gas solubility data in ILs without prior experimental knowledge of the compounds' features. Then, interactions between SO2 and ILs were deeply analyzed through DFT simulations. This work provides valuable information about required factors at the molecular level to provide high SO2 solubility in ILs, which is crucial for further implementation of these materials in the future. In our opinion, systematic research on ILs for SO2 capture increases our knowledge about those factors which could be controlled at the molecular level, providing an approach for the rational design of task-specific ILs.
Materia
Chemistry, Physical and theoretical
Química física
Versión del editor
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