New integrated measurement protocol using capillary electrophoresis instrumentation for the determination of viscosity,conductivity and absorbance of ionic liquid-molecular solvent mixtures

摘要

The low vapor pressure and the versatility of the physico-chemical properties of ionic liquids make them really attractive as an alternative for conventional molecular solvents.The knowledge of their physico-chemical properties(viscosity,conductivity,miscibility with organic solvents and anion-cation interactions)has appeared mandatory for better targeting their applications,although it is generally still lacking or incomplete.This work promotes capillary electrophoresis instrumentation as an integrated apparatus for measurement of viscosity,conductivity and absorbance of pure ionic liquids and ionic liquid-molecular solvent mixtures.Compared to current conventional techniques,the assets of this instrumentation for this purpose are the combined availability of a pressure delivery system,power supply,diode array absorbance detector and thermoregulation device,allowing unattended,automatic and easy operation,involving minimum sample handling.Most importantly,the required sample volume can be reduced to about 50 muL,making this protocol very cost-effective.A protocol was optimized with respect to time,sample consumption and data reliability for the determination of these physico-chemical parameters.Ionic liquids selected for method development and validation differed in the nature of their cation(butyl-and ethyl-methylimidazolium)and anion(trifluoromethanesulfonate and bis(trifluoromethanesulfonyl)imide).Various molecular solvents were mixed with these ionic liquids(acetonitrile,methanol,dimethylformamide and trifluoroethanol)and the sarne physico-chemical properties were determined by optimized methods.The knowledge of these data should be of great support in various application areas,including the development of new separation media for capillary electrophoresis and chromatographic techniques.