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Separation Science and Technology Volume 47, 2012 - Issue 2: Ionic Liquids: Challenging the Frontiers of Separations Processes
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Original Articles

Partition Coefficients of Alkaloids in Biphasic Ionic-Liquid-Aqueous Systems and their Dependence on the Hofmeister Series

Mara G. Freire Instituto de Tecnologia Química e Biológica, www.itqb.unl.pt, Universidade Nova de Lisboa, Av. República, Oeiras, Portugal; Departamento de Química, CICECO, Universidade de Aveiro, Aveiro, PortugalCorrespondence[email protected] ; [email protected]
,
Ana Rita R. Teles Departamento de Química, CICECO, Universidade de Aveiro, Aveiro, Portugal
,
José N. Canongia Lopes Instituto de Tecnologia Química e Biológica, www.itqb.unl.pt, Universidade Nova de Lisboa, Av. República, Oeiras, Portugal; Centro de Química Estrutural, Instituto Superior Técnico, Lisboa, Portugal
,
Luís Paulo N. Rebelo Instituto de Tecnologia Química e Biológica, www.itqb.unl.pt, Universidade Nova de Lisboa, Av. República, Oeiras, Portugal
,
Isabel M. Marrucho Instituto de Tecnologia Química e Biológica, www.itqb.unl.pt, Universidade Nova de Lisboa, Av. República, Oeiras, Portugal
&
João A. P. Coutinho Departamento de Química, CICECO, Universidade de Aveiro, Aveiro, Portugal
Pages 284-291 | Received 10 Jun 2011, Accepted 18 Aug 2011, Published online: 03 Feb 2012
 
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Abstract

The aim of this work is to test the potential of hydrophobic phosphonium-based ionic liquids for the extraction of caffeine and nicotine from aqueous phases through the determination of the alkaloids' partition coefficients. It was found that the caffeine partitioning for the ionic-liquid-rich phase increases with the ionic liquid hydrogen-bonding accepting capability (or water content), while for nicotine a nearly opposite behavior was observed. In addition, both the influence of the ionic concentration of the aqueous solution (ranging from 0.0 mol · kg−1 to 3.0 mol · kg−1), and the salt nature (with K- and Na-based salts), in the partitioning of caffeine for the ionic-liquid-rich phase were investigated. The influence of the inorganic salt nature in the alkaloid partitioning for the ionic-liquid-rich phase closely follows the Hofmeister series.

ACKNOWLEDGEMENTS

The authors would like to acknowledge Cytec Industries for providing all the phosphonium-based ionic liquids used in this work, and the financial support provided by FCT (Portugal) through projects PTDC/QUI/71331/2006, PTDC/QUI/72903/2006, PTDC/QUI/QUI/101794/2008 and PTDC/EQU-EPR/104554/2008, and through the Post-Doctoral grant SFRH/BPD/41781/2007 of Mara G. Freire.

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