Application of supported ionic liquid membranes using A flat sheet and hollow fibers to lactic acid recovery, Matsumoto et al. Desalination Water Treatment 14 (2010) 37–46.

On the development of an integrated membrane process with ionic liquids for de kinetic resolution of rac-2-pentanol. Hernández fernández F.J. et al. Journal Of Membrane Science, Vol. 314, 238-246, (2008)


A novel application of supported liquid membrane based on ionic liquids for simultaneous separation fo the substrates and products of a transesterification reaction. Hernández fernández F.J. et al. Journal Of Membrane Science, Vol. 273, 73-80, (2007)

Selective removal of acetone and butan-1-ol from water with supported ionic liquid-polydimethylsiloxane membrane by pervaporation. Izák et al. Chem. Eng. J. 139 (2008) 318–321.

Integrated reaction/separation processes for the kinetic resolution of rac-1-phenylethanol using supported liquid membranes based on ionic liquids. Hernández Fernández F.J. et al. Chemical Engineering And Processing, Vol. 46, 818-824, (2007)

Comparison of solvent extraction and supported liquid membrane permeation using an ionic liquid for concentrating penicillin G. Matsumoto et al. Journal Of Membrane Science 289 (2007) 92–96.


Selective separation of aromatic hydrocarbons through supported liquid membranes based on ionic liquids. Matsumoto et al. Journal Of Membrane Science 246 (2005) 77–81.

High selective transport of organic compounds by using supported liquid membranes based on ionic liquids. Branco et al. Angew. Chem. Int. Ed. 41 (2002) 2771–2773

Studies on the selective transport of organic compounds by using ionic liquids as A novel supported liquid membranes. Branco et al. Chem. Eur. J. 8 (2002) 3865–3871

Transport of organic acids through A supported liquid membrane driven by lipase-catalyzed reactions. Miyako et al. J. Biosci. Bioeng. 96 (2003) 370–374.

Separation of biohydrogen by supported ionic liquid membranas. Neves et al. Desalination 240 (2009) 311–315.

Facilitated transport of CO2 and SO2 through supported ionic liquid membranes . Luis et al. Desalination 245 (2009) 485–493.

Long-term, continuous mixed-gas dry fed co2/ch4 and co2/n2 separation performance and selectivities for room temperature ionic liquid membranas. Scovazzo et al., J. Membr. Sci. 327 (2009) 41–48.

Preparation of supported ionic liquid membranes (silms) for the removal of acidic gases from crude natural gas Park et al., Desalination 236 (2009) 342–348.

zero solvent emission process for sulfur dioxide recovery using a membrane contactor and ionic liquids . Luis et al., J. Membr. Sci. 330 (2009) 80–89.

CO2 separation facilitated by taskspecific ionic liquids using a supported liquid membrane. Hanioka. J. Membr. Sci. 314 (2008) 1–4.


Experimental investigation of the permeability and selectivity of supported ionic liquid membranes for co2/he separation at temperatures up to 125 ◦c. Ilconich et al., J. Membr. Sci. 298 (2007) 41–47.

On the selective separation of metal ions from hydrochloride aqueous solution by pertraction through supported ionic liquids membranes. De los Ríos et al., Journal of Membranes Science. 444 (2013) 469-481.

Pseudo-emulsion based hollow fiber with strip dispersion pertraction of iron(iii) using ionic liquid as Carrier. Alguacil et al., Chem. Eng. J. 157 (2010) 272–366.

New application of supported ionic liquids membranes as proton exchange membranes in microbial fuel cell for waste water treatment. Hernández-fernánde et al. Chemical engineering journal, 279, 115-119 (2015).

Hollow fiber supported ionic liquid membrane microextraction for determination of sulfonamides in environmental water samples by high-performance liquid chromatography. Tao et al., J. Chromatogr. A 1216 (2009) 6259–62

Direct determination of chlorophenols in environmental water samples by hollow fiber supported ionic liquid membrane extraction coupled with high-performance liquid chromatography. Peng et al., J. Chromatogr. A 1139 (2007) 165–170.

Physically gelled ionic liquid: solid membrane materials with liquid like CO2 gas transport. Voss et al., Chem. Mater. 21 (2009) 3027–3029.

On the selective transport of nutrients through polymer inclusion membranes based on ionic liquids. Hernández-Fernández et al., Processes, 7 (2019), 544.

Polymeric inclusion membranes based on ionic liquids for selective separation of metal ions. Hernández-Fernández et al., Membranes (2023), 13, 79

New application of polymer inclusion membrane based on ionic liquids as proton exchange membrane in microbial fuel cell. Hernández-Fernández et al., Separation and purification technology, 160 (2016) 51-58.

Development and characterization of a new embedded ionic liquid based membrane-cathode assembly for its application in single chamber microbial fuel cells. Hernández-Fernández et al., Energy, 93 (2015), 1748-1757.

New membranes based on ionic liquids for pem fuel cells at elevated temperatures. Ye et al., J. Power sources 178 (2008) 651–660.

High-temperature proton conducting membranes based on perfluorinated ionomer membrane-ionic liquid composites. Doyle et al., J. Electrochem. Soc. 147 (2000) 34–37.

Microbial Fuel Cell Using a Novel Ionic-Liquid-Type Membrane-Cathode Assembly with Heterotrophic Anodic Denitrification for Slurry Treatment. . Hernández-Fernández et al. Sustainability 2023, 15, 14817. https://doi.org/10.3390/su152014817

New efficient laccase immobilization strategy using ionic liquids for biocatalysis and microbial fuel cells applicactions. Hernández-Fernández et al., Journal of Chemical Technology and Biotecnology, 93(2018), 174-183.

A New Way to Improve the Activity and Stability of Candida antarctica Lipase B. Hernández-Fernández et al., Molecules 2020, 25, 3233.

• Dynamic potential response and SEM-EDX studies polymeric inclusion membranes based on ionic liquids. Tomás-Alonso et al., Int. J. Electrochem sci. 8 (2013) 4955–4969.

• Determination of water pollutants by direct-immersion solid-phase microextraction using polymeric ionic liquid coatings. Lopez Darias et al., J. Chromatogr. A 1217 (2009) 1236–1243.