abstract
The application of hydrophobic ionic liquids (ILs) as promising alternatives to volatile organic solvents in liquid-liquid extraction processes of biomolecules was evaluated through the determination of the partition coefficients of the aminoacid L-tryptophan, taken as model biomolecule, between aqueous solutions and distinct ILs. Factors affecting the effectiveness of the recovery such as the pH of the aqueous medium, the nature of the IL anion and the nature and the chemical structure of the IL cation were assessed. The results show that the pH of the aqueous phase strongly influences the success of the separation and that the anion/cation hydrophobic characters are main structural factors ruling the extraction efficiency. The evidences gathered in this work suggest that L-tryptophan partitioning between the aqueous and IL phases is ruled by a complex interplay of intermolecular forces between the solute and the IL solvent, such as electrostatic interactions between the cationic form of the aminoacid and the anion of the IL and interactions established at the level of the IL cation. These findings support earlier molecular interpretations of the mechanisms that govern the partitioning of biomolecules between ILs and aqueous phases. (C) 2010 Elsevier B.V. All rights reserved.
keywords
AQUEOUS BIPHASIC SYSTEMS; AMINO-ACIDS; MUTUAL SOLUBILITIES; SOLVENT-EXTRACTION; 2-PHASE SYSTEM; WATER; RECOVERY; ANTIBIOTICS; SEPARATION; PHOSPHATE
subject category
Engineering
authors
Tome, LIN; Catambas, VR; Teles, ARR; Freire, MG; Marrucho, IM; Coutinho, JAP
our authors
Groups
G4 - Renewable Materials and Circular Economy
G5 - Biomimetic, Biological and Living Materials
acknowledgements
The authors thank financial support from Fundacao para a Ciencia e a Tecnologia for Project PTDC/EQU-FTT/65252/2006 and for pos-doctoral grants SFRH/BPD/41781/2007 of Mara G. Freire and SFRH/BPD/44926/2008 of Luciana I. N. Tome.