1. Separationof Carbon Dioxide from Nitrogen or Methane by Supported Ionic LiquidMembranes (SILMs): Influence of the Cation Charge of the Ionic Liquid.
- Author
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Hojniak, Sandra D., Khan, Asim Laeeq, Hollóczki, Oldamur, Kirchner, Barbara, Vankelecom, Ivo F. J., Dehaen, Wim, and Binnemans, Koen
- Subjects
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CARBON dioxide , *IMIDAZOLES , *IONIC liquids , *CATIONS , *LIQUID membranes , *QUANTUM chemistry - Abstract
Supportedionic liquid membranes (SILMs) are promising tools for the separationof carbon dioxide from other gases. In this paper, new imidazolium,pyrrolidinium, piperidinium, and morpholinium ionic liquids with atriethylene glycol side chain and tosylate anions, as well as theirsymmetrical dicationic analogues, have been synthesized and incorporatedinto SILMs. The selectivities for CO2/N2andCO2/CH4separations have been measured. Theselectivities exhibited by the dicationic ionic liquids are up totwo times higher than the values of the corresponding monocationicionic liquids. Quantum chemical calculations have been used to investigatethe difference in the interaction of carbon dioxide with monocationicand dicationic ionic liquids. The reason for the increased gas separationselectivity of the dicationic ionic liquids is two-fold: (1) a decreasein permeance of nitrogen and methane through the ionic liquid layer,presumably due to their less favorable interactions with the gases,while the permeance of carbon dioxide is reduced much less; (2) anincrease in the number of interaction sites for the interactions withthe quadrupolar carbon dioxide molecules in the dicationic ionic liquids,compared to the monocationic analogues. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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