| 1 - 1 |
SPECIAL ISSUE: ILSEPT2011 Preface
Uribe IO |
| 2 - 10 |
COSMO-RS assisted solvent screening for liquid-liquid extraction of mono ethylene glycol from aqueous streams
Garcia-Chavez LY, Hermans AJ, Schuur B, de Haan AB |
| 11 - 19 |
Developing criteria for the recovery of ionic liquids from aqueous phase by adsorption with activated carbon
Lemus J, Palomar J, Heras F, Gilarranz MA, Rodriguez JJ |
| 20 - 25 |
Carbon dioxide absorption in a technical-scale-plant utilizing an imidazolium based ionic liquid
Janiczek P, Kalb RS, Thonhauser G, Gamse T |
| 26 - 33 |
Separation performance of CO2 through Supported Magnetic Ionic Liquid Membranes (SMILMs)
Albo J, Santos E, Neves LA, Simeonov SP, Afonso CAM, Crespo JG, Irabien A |
| 34 - 41 |
Integrated CO2 capture and enzymatic bioconversion in supported ionic liquid membranes
Neves LA, Afonso C, Coelhoso IM, Crespo JG |
| 42 - 50 |
CO2 removal with'switchable' versus'classical' ionic liquids
Privalova E, Nurmi M, Maranon MS, Murzina EV, Maki-Arvela P, Eranen K, Murzin DY, Mikkola JP |
| 51 - 64 |
Validation and prediction of solubility parameters of ionic liquids for CO2 capture
Sistla YS, Jain L, Khanna A |
| 65 - 72 |
On the improved absorption of carbon monoxide in the ionic liquid 1-hexyl-3-methylimidazolium chlorocuprate
David OC, Zarca G, Gorri D, Urtiaga A, Ortiz I |
| 73 - 82 |
Gas transport properties of Pebax (R)/room temperature ionic liquid gel membranes
Bernardo P, Jansen JC, Bazzarelli F, Tasselli F, Fuoco A, Friess K, Izak P, Jarmarova V, Kacirkova M, Clarizia G |
| 83 - 89 |
Experimental study of the separation of propane/propylene mixtures by supported ionic liquid membranes containing Ag+-RTILs as carrier
Fallanza M, Ortiz A, Gorri D, Ortiz I |
| 90 - 95 |
Production of ionic liquids by electrodialysis
Haerens K, De Vreese P, Matthijs E, Pinoy L, Binnemans K, Van der Bruggen B |
| 96 - 107 |
Characterization of poly(vinylchloride) (PVC) based cation exchange membranes prepared with ionic liquid
Gizli N, Cinarli S, Demircioglu M |
| 108 - 114 |
Recovery of n-butanol using ionic liquid-based pervaporation membranes
Heitmann S, Krings J, Kreis P, Lennert A, Pitner WR, Gorak A, Schulte MM |
| 115 - 122 |
Dissolution of Pinus radiata and Eucalyptus globulus woods in ionic liquids under microwave radiation: Lignin regeneration and characterization
Casas A, Oliet M, Alonso MV, Rodriguez F |
| 123 - 129 |
Dissolution of lignocellulose in ionic liquids and its recovery by nanofiltration membrane
Hazarika S, Dutta NN, Rao PG |
| 130 - 136 |
Extraction of 1,3-propanediol from aqueous solutions using different ionic liquid-based aqueous two-phase systems
Muller A, Gorak A |
| 137 - 141 |
Use of methyltrioctyl/decylammonium bis 2,4,4-(trimethylpentyl)phosphinate ionic liquid (ALiCY IL) on the boron extraction in chloride media
Fortuny A, Coll MT, Sastre AM |
| 142 - 149 |
Optimization of the gallic acid extraction using ionic-liquid-based aqueous two-phase systems
Claudio AFM, Ferreira AM, Freire CSR, Silvestre AJD, Freire MG, Coutinho JAP |
| 150 - 157 |
On the use of imidazolium and ammonium-based ionic liquids as green solvents for the selective recovery of Zn(II), Cd(II), Cu(II) and Fe(III) from hydrochloride aqueous solutions
de los Rios AP, Hernandez-Fernandez FJ, Alguacil FJ, Lozano LJ, Ginesta A, Garcia-Diaz I, Sanchez-Segado S, Lopez FA, Godinez C |
| 158 - 163 |
Removal of zinc(II) and iron ions from chloride solutions with phosphonium ionic liquids
Regel-Rosocka M, Nowak L, Wisniewski M |
| 164 - 171 |
Extraction behavior of actinides and fission products in amide functionalized ionic liquid
Rout A, Venkatesan KA, Srinivasan TG, Rao PRV |
| 172 - 178 |
Ionic liquid-based aqueous two-phase extraction within a microchannel system
Novak U, Pohar A, Plazl I, Znidarsic-Plazl P |
| 179 - 185 |
Preparation and characterization of ionic liquid polymer microspheres [PEEKWC/DMF/CYPHOS IL 101] using the phase-inversion technique
Lakshmi DS, Figoli A, Fiorani G, Carraro M, Giorno L, Drioli E |
| 186 - 194 |
Simulation of a new regeneration process of solvents with ionic liquid by short-path distillation
Blahusiak M, Schlosser S, Cvengros J |
| 195 - 204 |
Introducing process simulation in ionic liquids design/selection for separation processes based on operational and economic criteria through the example of their regeneration
Ferro VR, Ruiz E, de Riva J, Palomar J |
| 205 - 210 |
Extraction of Candida antarctica lipase A from aqueous solutions using imidazolium-based ionic liquids
Deive FJ, Rodriguez A, Rebelo LPN, Marrucho IM |
| 211 - 215 |
Ionic liquids designed as chaotrope and surfactant for use in protein chemistry
Mester P, Wagner M, Rossmanith P |
| 216 - 220 |
Robust ionic liquid against high concentration of salt for preconcentration and determination of rhodamine B
Taziki M, Shemirani F, Majidi B |
| 221 - 227 |
Ionic liquid-supported solid-liquid extraction of bioactive alkaloids. I. New HPLC method for quantitative determination of glaucine in Glaucium flavum Cr. (Papaveraceae)
Bogdanov MG, Svinyarov I, Keremedchieva R, Sidjimov A |
| 228 - 234 |
Revisiting physico-chemical hazards of ionic liquids
Diallo AO, Len C, Morgan AB, Marlair G |
