K. C. Madison, Barrier Function of the Skin: "La Raison d'Être" of the Epidermis, Journal of Investigative Dermatology, vol.121, pp.231-241, 2003.

E. Proksch, J. M. Brandner, and J. Jensen, The skin: an indispensable barrier, Experimental Dermatology, vol.17, pp.1063-1072, 2008.

S. S. Shiratori and M. F. Rubner, pH-Dependent Thickness Behavior of Sequentially Adsorbed Layers of Weak polyelectrolytes, Macromolecules, vol.33, pp.4213-4219, 2000.

M. Cid, N. Stem, C. Brunetti, A. F. Beloto, and C. A. Ramos, Improvements in anti-reflection coatings for high-efficiency silicon solar cells, Surface and Coatings Technology, vol.106, pp.117-120, 1998.

Y. Lvov, S. Yamada, and T. Kunitake, Non-linear optical effects in layer-by-layer alternate films of polycations and an azobenzene-containing polyanion, Thin Solid Films, vol.300, pp.107-112, 1997.

J. Telegdi, L. Trif, and L. Románszki, 5 -Smart anti-biofouling composite coatings for naval applications A2 -Montemor, M.F, pp.123-155, 2016.

J. D. Decher, Buildup of ultrathin multilayer films by a self-assembly process: III. Consecutively alternating adsorption of anionic and cationic polyelectrolytes on charged surfaces, Thin Solid Films, pp.831-835, 1992.

G. Decher, J. D. Hong, and J. Schmitt, Buildup of ultrathin multilayer films by a self-assembly process: III

, Consecutively alternating adsorption of anionic and cationic polyelectrolytes on charged surfaces, Thin Solid Films, vol.2, pp.831-835, 1992.

G. Decher, Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites, vol.277, pp.1232-1237, 1997.
DOI : 10.1126/science.277.5330.1232

S. T. Dubas and J. B. Schlenoff, Polyelectrolyte Multilayers Containing a Weak Polyacid: Construction and Deconstruction, Macromolecules, vol.34, pp.3736-3740, 2001.

J. B. Schlenoff, H. Ly, and M. Li, Charge and Mass Balance in Polyelectrolyte Multilayers, Journal of the American Chemical Society, vol.120, pp.7626-7634, 1998.

J. F. Joanny, Polyelectrolyte adsorption and charge inversion, Eur. Phys. J. B, vol.9, pp.117-122, 1999.

Y. Sun, X. Zhang, C. Sun, B. Wang, and J. Shen, Fabrication of ultrathin film containing bienzyme of glucose oxidase and glucoamylase based on electrostatic interaction and its potential application as a maltose sensor, Macromolecular Chemistry and Physics, vol.197, pp.147-153, 1996.

C. Amorosi, M. Michel, L. Avérous, V. Toniazzo, D. Ruch et al., Plasma polymer films as an alternative to (PSS-PAH)n or (PSS-PDADMAC)n films to retain active enzymes in exponentially growing polyelectrolyte multilayers, Colloids and Surfaces B: Biointerfaces, pp.124-131, 2012.

T. Deng, H. Wang, J. Li, G. Shen, and R. Yu, A novel biosensing interfacial design based on the assembled multilayers of the oppositely charged polyelectrolytes, Analytica Chimica Acta, vol.532, pp.137-144, 2005.

R. M. Iost and F. N. Crespilho, Layer-by-layer self-assembly and electrochemistry: Applications in biosensing and bioelectronics, Biosensors and Bioelectronics, pp.1-10, 2012.

L. Ouyang, D. M. Dotzauer, S. R. Hogg, J. Macanás, J. Lahitte et al., Catalytic hollow fiber membranes prepared using layer-by-layer adsorption of polyelectrolytes and metal nanoparticles, Catalysis Today, vol.156, pp.100-106, 2010.

S. Kidambi and M. L. Bruening, Multilayered Polyelectrolyte Films Containing Palladium Nanoparticles: Synthesis, Characterization, and Application in Selective Hydrogenation, Chemistry of Materials, vol.17, pp.301-307, 2005.

B. Ballarin, M. C. Cassani, D. Tonelli, E. Boanini, S. Albonetti et al., Gold Nanoparticle-Containing Membranes from in Situ Reduction of a Gold(III)?Aminoethylimidazolium Aurate Salt, The Journal of Physical Chemistry C, vol.114, pp.9693-9701, 2010.

G. Xu, S. Wang, H. Zhao, S. Wu, J. Xu et al., Layer-by-layer (LBL) assembly technology as promising strategy for tailoring pressure-driven desalination membranes, Journal of Membrane Science, vol.493, pp.428-443, 2015.

J. Borges and J. F. Mano, Molecular Interactions Driving the Layer-by-Layer Assembly of Multilayers, Chemical Reviews, vol.114, pp.8883-8942, 2014.

Y. Li, X. Wang, and J. Sun, Layer-by-layer assembly for rapid fabrication of thick polymeric films, Chem. Soc. Rev, vol.41, pp.5998-6009, 2012.

J. B. Schlenoff and S. T. Dubas, Mechanism of Polyelectrolyte Multilayer Growth: Charge Overcompensation and Distribution, Macromolecules, vol.34, pp.592-598, 2001.

S. T. Dubas and J. B. Schlenoff, Factors Controlling the Growth of Polyelectrolyte Multilayers, Macromolecules, vol.32, pp.8153-8160, 1999.

W. M. De-vos, L. L. Mears, R. M. Richardson, T. Cosgrove, R. Barker et al., Nonuniform Hydration and Odd-Even Effects in Polyelectrolyte Multilayers under a Confining Pressure, Macromolecules, vol.46, pp.1027-1034, 2013.

D. E. Bergbreiter and K. Liao, Covalent layer-by-layer assembly-an effective, forgiving way to construct functional robust ultrathin films and nanocomposites, Soft Matter, vol.5, pp.23-28, 2009.

K. Ariga, J. P. Hill, and Q. Ji, Layer-by-layer assembly as a versatile bottom-up nanofabrication technique for exploratory research and realistic application, Physical Chemistry Chemical Physics, vol.9, 2007.

M. Lösche, J. Schmitt, G. Decher, W. G. Bouwman, and K. Kjaer, Detailed Structure of Molecularly Thin Polyelectrolyte Multilayer Films on Solid Substrates as Revealed by Neutron Reflectometry, Macromolecules, pp.8893-8906, 1998.

E. Kharlampieva, V. Kozlovskaya, J. Chan, J. F. Ankner, and V. V. Tsukruk, Spin-Assisted Layer-byLayer Assembly: Variation of Stratification as Studied with Neutron Reflectivity, Langmuir : the ACS journal of surfaces and colloids, vol.25, pp.14017-14024, 2009.

J. De-grooth, R. Oborný, J. Potreck, K. Nijmeijer, and W. M. De-vos, The role of ionic strength and oddeven effects on the properties of polyelectrolyte multilayer nanofiltration membranes, Journal of Membrane Science, vol.475, pp.311-319, 2015.

E. Tjipto, J. F. Quinn, and F. Caruso, Assembly of Multilayer Films from Polyelectrolytes Containing Weak and Strong Acid Moieties, vol.21, pp.8785-8792, 2005.

K. Büscher, K. Graf, H. Ahrens, and C. A. Helm, Influence of Adsorption Conditions on the Structure of

P. Multilayers, Langmuir : the ACS journal of surfaces and colloids, vol.18, pp.3585-3591, 2002.

M. Salomäki, I. A. Vinokurov, and J. Kankare, Effect of Temperature on the Buildup of Polyelectrolyte Multilayers, vol.21, pp.11232-11240, 2005.

D. Yoo, S. S. Shiratori, and M. F. Rubner, Controlling Bilayer Composition and Surface Wettability of Sequentially Adsorbed Multilayers of Weak Polyelectrolytes, Macromolecules, pp.4309-4318, 1998.

X. Gong, Controlling surface properties of polyelectrolyte multilayers by assembly pH, Physical Chemistry Chemical Physics, vol.15, pp.10459-10465, 2013.

M. F. Rubner, pH-Controlled Fabrication of Polyelectrolyte Multilayers: Assembly and Applications, pp.133-154, 2003.

P. Bieker and M. Schönhoff, Linear and Exponential Growth Regimes of Multilayers of Weak Polyelectrolytes in Dependence on pH, Macromolecules, pp.5052-5059, 2010.

X. Jiang, Z. Chen, D. Lv, Q. Wu, and X. Lin, Basic Law Controlling the Growth Regime of Layer-byLayer Assembled Polyelectrolyte Multilayers, Macromolecular Chemistry and Physics, vol.209, pp.175-183, 2008.

C. Porcel, P. Lavalle, V. Ball, G. Decher, B. Senger et al., From Exponential to Linear Growth in Polyelectrolyte Multilayers, Langmuir : the ACS journal of surfaces and colloids, vol.22, pp.4376-4383, 2006.

A. S. Vikulina, Y. G. Anissimov, P. Singh, V. Z. Prokopovi?, K. Uhlig et al., Temperature effect on the build-up of exponentially growing polyelectrolyte multilayers. An exponential-to-linear transition point, Physical Chemistry Chemical Physics, vol.18, pp.7866-7874, 2016.

L. Xu, D. Pristinski, A. Zhuk, C. Stoddart, J. F. Ankner et al., Linear versus Exponential Growth of Weak Polyelectrolyte Multilayers: Correlation with Polyelectrolyte Complexes, Macromolecules, pp.3892-3901, 2012.

R. V. Klitzing, Internal structure of polyelectrolyte multilayer assemblies, Physical Chemistry Chemical Physics, vol.8, pp.5012-5033, 2006.

G. Ladam, P. Schaad, J. C. Voegel, P. Schaaf, G. Decher et al., Situ Determination of the Structural Properties of Initially Deposited Polyelectrolyte Multilayers, vol.16, pp.1249-1255, 2000.
URL : https://hal.archives-ouvertes.fr/hal-01742967

A. Ciferri, Ionic Mixed Interactions in Macromolecules, Chemistry -A European Journal, vol.16, pp.10930-10945, 2010.

D. Kovacevic, S. Van-der-burgh, A. De-keizer, and M. A. Stuart, Kinetics of Formation and Dissolution of Weak Polyelectrolyte Multilayers: Role of Salt and Free Polyions, Langmuir : the ACS journal of surfaces and colloids, vol.18, pp.5607-5612, 2002.

V. Izumrudov, E. Kharlampieva, and S. A. Sukhishvili, Salt-Induced Multilayer Growth: Correlation with Phase Separation in Solution, Macromolecules, vol.37, pp.8400-8406, 2004.

V. Izumrudov and S. A. Sukhishvili, Ionization-Controlled Stability of Polyelectrolyte Multilayers in Salt Solutions, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.5188-5191, 2003.

W. M. De-vos, A. De-keizer, M. A. Stuart, and J. M. Kleijn, Thin polymer films as sacrificial layers for easier cleaning, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.358, pp.6-12, 2010.

S. Ilyas, J. De-grooth, K. Nijmeijer, and W. M. De-vos, Multifunctional polyelectrolyte multilayers as nanofiltration membranes and as sacrificial layers for easy membrane cleaning, Journal of colloid and interface science, vol.446, pp.386-393, 2015.

S. Loeb and S. Sourirajan, Sea Water Demineralization by Means of an Osmotic Membrane, Saline Water Conversion-II, pp.117-132, 1963.

R. W. Baker, Membrane Technology and Applications, 2004.
DOI : 10.1002/9781118359686

URL : https://onlinelibrary.wiley.com/doi/pdf/10.1002/9781118359686.fmatter

C. Zhao, J. Xue, F. Ran, and S. Sun, Modification of polyethersulfone membranes -A review of methods, Progress in Materials Science, vol.58, pp.76-150, 2013.

V. Kochkodan, D. J. Johnson, and N. , Polymeric membranes: Surface modification for minimizing (bio)colloidal fouling, Adv. Colloid Interface Sci, vol.206, pp.116-140, 2014.

K. Peinemann and S. P. Nunes, Membranes for Water Treatment, vol.4, 2010.

P. Ahmadiannamini, M. L. Bruening, and V. V. Tarabara, Sacrificial polyelectrolyte multilayer coatings as an approach to membrane fouling control: Disassembly and regeneration mechanisms, Journal of Membrane Science, 2015.

S. Ilyas, J. De-grooth, K. Nijmeijer, and W. M. De-vos, Multifunctional polyelectrolyte multilayers as nanofiltration membranes and as sacrificial layers for easy membrane cleaning, J. Colloid Interface Sci, vol.446, pp.386-393, 2015.

A. Schäfer, N. Andritsos, A. J. Karabelas, E. Hoek, R. Schneider et al., Fouling in nanofiltration, 2004.

G. Pearce, Introduction to membranes: Fouling control, Filtration & Separation, vol.44, pp.30-32, 2007.

A. I. Schäfer, A. G. Fane, and T. D. Waite, Nanofiltration: principles and applications, 2005.

A. I. Schäfer, A. G. Fane, and T. D. Waite, Nanofiltration : principles and applications, 2005.

A. Szymczyk and P. Fievet, Investigating transport properties of nanofiltration membranes by means of a steric, electric and dielectric exclusion model, Journal of Membrane Science, vol.252, pp.77-88, 2005.

A. E. Yaroshchuk, Dielectric exclusion of ions from membranes, Advances in Colloid and Interface Science, vol.85, pp.193-230, 2000.

B. Van-der-bruggen, J. Schaep, W. Maes, D. Wilms, and C. Vandecasteele, Nanofiltration as a treatment method for the removal of pesticides from ground waters, Desalination, vol.117, pp.139-147, 1998.

Y. Zhang, B. Van-der-bruggen, G. X. Chen, L. Braeken, and C. Vandecasteele, Removal of pesticides by nanofiltration: effect of the water matrix, Separation and Purification Technology, vol.38, pp.163-172, 2004.

Y. Zhang, C. Causserand, P. Aimar, and J. P. Cravedi, Removal of bisphenol A by a nanofiltration membrane in view of drinking water production, Water research, vol.40, pp.3793-3799, 2006.

R. Boussahel, S. Bouland, K. M. Moussaoui, and A. Montiel, Removal of pesticide residues in water using the nanofiltration process, Desalination, vol.132, pp.205-209, 2000.

J. Geens, B. Van-der-bruggen, and C. Vandecasteele, Transport model for solvent permeation through nanofiltration membranes, Separation and Purification Technology, vol.48, pp.255-263, 2006.

K. Ko?uti?, L. Fura?, L. Sipos, and B. Kunst, Removal of arsenic and pesticides from drinking water by nanofiltration membranes, Separation and Purification Technology, vol.42, pp.137-144, 2005.

K. V. Plakas and A. J. Karabelas, Removal of pesticides from water by NF and RO membranes -A review, Desalination, pp.255-265, 2012.

J. Tay, J. Liu, and D. Sun, Effect of solution physico-chemistry on the charge property of nanofiltration membranes, Water research, vol.36, pp.585-598, 2002.

B. Van-der-bruggen, J. Schaep, W. Maes, D. Wilms, and C. Vandecasteele, Nanofiltration as a treatment method for the removal of pesticides from ground waters, Desalination, vol.117, pp.139-147, 1998.

B. Van-der-bruggen, J. Schaep, D. Wilms, and C. Vandecasteele, Influence of molecular size, polarity and charge on the retention of organic molecules by nanofiltration, Journal of Membrane Science, vol.156, pp.29-41, 1999.

M. H. Mulder, Basic principles of membrane technology, 1996.

N. S. Thomaidis, A. G. Asimakopoulos, and A. A. Bletsou, Emerging contaminants: A tutorial mini-review, Global Nest J, vol.14, pp.72-79, 2012.

, Global Chemical Outlook; Towards Sound Management of Chemicals, United Nations Environment Programme, 2012.

M. Kuzmanovic´, A. Ginebreda, M. Petrovic´, and D. Barcelo´, Risk assessment based prioritization of 200 organic micropollutants in 4 Iberian rivers, Science of the Total Environment, 2014.

Y. Luo, W. Guo, H. H. Ngo, L. D. Nghiem, F. I. Hai et al., A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment, Science of the Total Environment, pp.619-641, 2014.

E. D. Van-der-aa, L. Bijlsma, E. Emke, B. M. Van-de-ven, and A. L. Van-nuijs, P. de Voogt Drugs of Abuse and Tranquilizers in Dutch Surface Waters, Drinking Water and Wastewater -Results of
URL : https://hal.archives-ouvertes.fr/in2p3-00021836

, Screening Monitoring, 2009.

E. Cho, J. Khim, S. Chung, D. Seo, and Y. , Son, Occurrence of micropollutants in four major rivers in

. Korea, Science of the Total Environment, pp.138-147, 2014.

K. K. Barnes, D. W. Kolpin, E. T. Furlong, S. D. Zaugg, M. T. Meyer et al., A national reconnaissance of pharmaceuticals and other organic wastewater contaminants in the United States -I)

. Groundwater, Science of The Total Environment, vol.402, pp.192-200, 2008.

Q. Sui, J. Huang, S. Deng, G. Yu, and Q. Fan, Occurrence and removal of pharmaceuticals, caffeine and DEET in wastewater treatment plants of Beijing, Water research, vol.44, pp.417-426, 2010.

D. Rozman, Z. Hrkal, P. Eckhardt, E. Novotná, and Z. Boukalová, Pharmaceuticals in groundwaters: a case study of the psychiatric hospital at Horní Be?kovice, Environ. Earth Sci, 2014.

L. Pasquini, J. F. Munoz, M. N. Pons, J. Yvon, X. Dauchy et al.,

. Görner, Occurrence of eight household micropollutants in urban wastewater and their fate in a wastewater treatment plant. Statistical evaluation, Science of the Total Environment, vol.481, pp.459-448, 2014.

C. J. Houtman, J. Kroesbergen, K. Lekkerkerker-teunissen, and J. P. Van-der-hoek, Human health risk assessment of the mixture of pharmaceuticals in Dutch drinking water and its sources based on frequent monitoring data, Science of The Total Environment, vol.496, pp.54-62, 2014.

T. Heberer, Occurrence, fate, and removal of pharmaceutical residues in the aquatic environment: a review of recent research data, Toxicology Letters, vol.131, pp.5-17, 2002.

S. Kleywegt, V. Pileggi, P. Yang, C. Hao, X. Zhao et al., Pharmaceuticals, hormones and bisphenol A in untreated source and finished drinking water in Ontario, p.24

. Canada--occurrence, Science of The Total Environment, vol.409, pp.1481-1488, 2011.

A. Verliefde, E. Cornelissen, G. Amy, B. Van-der-bruggen, and H. Van-dijk, Priority organic micropollutants in water sources in Flanders and the Netherlands and assessment of removal possibilities with nanofiltration, Environmental Pollution, vol.146, pp.281-289, 2007.

J. Rivera-utrilla, M. Sánchez-polo, M. Á. Ferro-garcía, G. Prados-joya, and R. Ocampo-pérez, Pharmaceuticals as emerging contaminants and their removal from water. A review, pp.1268-1287, 2013.

I. Michael, L. Rizzo, C. S. Mcardell, C. M. Manaia, C. Merlin et al.,

. Kassinos, Urban wastewater treatment plants as hotspots for the release of antibiotics in the environment: A review, Water research, vol.47, pp.957-995, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01507503

R. I. Eggen, J. Hollender, A. Joss, M. Schärer, and C. Stamm, Reducing the discharge of micropollutants in the aquatic environment: The benefits of upgrading wastewater treatment plants, Environ. Sci. Technol, vol.48, pp.7683-7689, 2014.

J. H. Al-rifai, H. Khabbaz, and A. I. Schäfer, Removal of pharmaceuticals and endocrine disrupting compounds in a water recycling process using reverse osmosis systems, Separation and Purification Technology, vol.77, pp.60-67, 2011.

J. L. Acero, F. J. Benitez, F. J. Real, and F. Teva, Micropollutants removal from retentates generated in ultrafiltration and nanofiltration treatments of municipal secondary effluents by means of coagulation, oxidation, and adsorption processes, Chem. Eng. J, vol.289, pp.48-58, 2016.

C. Bellona, D. Heil, C. Yu, P. Fu, and J. E. Drewes, The pros and cons of using nanofiltration in lieu of reverse osmosis for indirect potable reuse applications, Separation and Purification Technology, vol.85, pp.69-76, 2012.

V. Yangali-quintanilla, S. K. Maeng, T. Fujioka, M. Kennedy, and G. Amy, Proposing nanofiltration as acceptable barrier for organic contaminants in water reuse, Journal of Membrane Science, vol.362, pp.334-345, 2010.

W. R. Bowen and J. S. Welfoot, Modelling the performance of membrane nanofiltration-critical assessment and model development, Chemical Engineering Science, vol.57, pp.1121-1137, 2002.

M. L. Bruening and D. M. Sullivan, Enhancing the Ion-Transport Selectivity of Multilayer Polyelectrolyte Membranes, Chemistry -A European Journal, vol.8, pp.3832-3837, 2002.

J. J. Harris, J. L. Stair, and M. L. Bruening, Layered Polyelectrolyte Films as Selective, Ultrathin Barriers for Anion Transport, Chemistry of Materials, vol.12, pp.1941-1946, 2000.

S. U. Hong, R. Malaisamy, and M. L. Bruening, Optimization of flux and selectivity in Cl?/SO42? separations with multilayer polyelectrolyte membranes, Journal of Membrane Science, vol.283, pp.366-372, 2006.

G. Liu, D. M. Dotzauer, and M. L. Bruening, Ion-Exchange Membranes Prepared Using Layer-by-Layer Polyelectrolyte Deposition, J Memb Sci, vol.354, pp.198-205, 2010.

R. Malaisamy and M. L. Bruening, High-Flux Nanofiltration Membranes Prepared by Adsorption of

, Multilayer Polyelectrolyte Membranes on Polymeric Supports, vol.21, pp.10587-10592, 2005.

M. D. Miller and M. L. Bruening, Controlling the Nanofiltration Properties of Multilayer Polyelectrolyte Membranes through Variation of Film Composition, Langmuir : the ACS journal of surfaces and colloids, vol.20, pp.11545-11551, 2004.

L. Ouyang, R. Malaisamy, and M. L. Bruening, Multilayer polyelectrolyte films as nanofiltration membranes for separating monovalent and divalent cations, Journal of Membrane Science, vol.310, pp.76-84, 2008.

W. Shan, P. Bacchin, P. Aimar, M. L. Bruening, and V. V. Tarabara, Polyelectrolyte multilayer films as backflushable nanofiltration membranes with tunable hydrophilicity and surface charge, Journal of Membrane Science, vol.349, pp.268-278, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00570691

J. L. Stair, J. J. Harris, and M. L. Bruening, Enhancement of the Ion-Transport Selectivity of Layered Polyelectrolyte Membranes through Cross-Linking and Hybridization, Chemistry of Materials, vol.13, pp.2641-2648, 2001.

B. W. Stanton, J. J. Harris, M. D. Miller, and M. L. Bruening, Ultrathin, Multilayered Polyelectrolyte Films as Nanofiltration Membranes, vol.19, pp.7038-7042, 2003.
DOI : 10.1021/la034603a

K. Hoffmann, T. Friedrich, and B. Tieke, Layer-by-layer assembled polyelectrolyte blend membranes and their use for ion separation and rejection, Polymer Engineering & Science, vol.51, pp.1497-1506, 2011.

W. Jin, A. Toutianoush, and B. Tieke, Use of Polyelectrolyte Layer-by-Layer Assemblies as Nanofiltration and Reverse Osmosis Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.2550-2553, 2003.

A. Toutianoush, W. Jin, H. S. Delig?z, and B. Tieke, Polyelectrolyte multilayer membranes for desalination of aqueous salt solutions and seawater under reverse osmosis conditions, Applied Surface Science, vol.246, pp.437-443, 2005.

X. Liu and M. L. Bruening, Size-Selective Transport of Uncharged Solutes through Multilayer Polyelectrolyte Membranes, Chemistry of Materials, vol.16, pp.351-357, 2003.

S. U. Hong, M. D. Miller, and M. L. Bruening, Removal of Dyes, Sugars, and Amino Acids from NaCl Solutions Using Multilayer Polyelectrolyte Nanofiltration Membranes, Industrial & Engineering Chemistry Research, vol.45, pp.6284-6288, 2006.

J. De-grooth, D. M. Reurink, J. Ploegmakers, W. M. De-vos, and K. Nijmeijer, Charged Micropollutant Removal With Hollow Fiber Nanofiltration Membranes Based On Polycation/Polyzwitterion/Polyanion Multilayers, ACS applied materials & interfaces, vol.6, pp.17009-17017, 2014.

B. Su, T. Wang, Z. Wang, X. Gao, and C. Gao, Preparation and performance of dynamic layer-by-layer PDADMAC/PSS nanofiltration membrane, Journal of Membrane Science, pp.324-331, 2012.

G. Liu, D. M. Dotzauer, and M. L. Bruening, Ion-Exchange Membranes Prepared Using Layer-by-Layer Polyelectrolyte Deposition, Journal of membrane science, vol.354, pp.198-205, 2010.

C. Liu, L. Shi, and R. Wang, Enhanced hollow fiber membrane performance via semi-dynamic layer-bylayer polyelectrolyte inner surface deposition for nanofiltration and forward osmosis applications, Reactive and Functional Polymers, vol.86, pp.154-160, 2015.

C. Liu, L. Shi, and R. Wang, Crosslinked layer-by-layer polyelectrolyte nanofiltration hollow fiber membrane for low-pressure water softening with the presence of SO42-in feed water, Journal of Membrane Science, vol.486, pp.169-176, 2015.

G. Zhang, X. Song, S. Ji, N. Wang, and Z. Liu, Self-assembly of inner skin hollow fiber polyelectrolyte multilayer membranes by a dynamic negative pressure layer-by-layer technique, Journal of Membrane Science, vol.325, pp.109-116, 2008.

D. Menne, J. Kamp, J. E. Wong, and M. Wessling, Precise tuning of salt retention of backwashable polyelectrolyte multilayer hollow fiber nanofiltration membranes, Journal of Membrane Science, vol.499, pp.396-405, 2016.

S. Sourirajan, Separation of Hydrocarbon Liquids by Flow Under Pressure Through Porous Membranes, Nature, pp.1348-1349, 1964.

L. G. Peeva, S. Malladi, and A. G. Livingston, In Comprehensive Membrane Science and Engineering, 2010.

P. Vandezande, L. E. Gevers, and I. F. Vankelecom, Solvent resistant nanofiltration: Separating on a molecular level, Chem. Soc. Rev, vol.37, pp.365-405, 2008.

M. Amirilargani, M. Sadrzadeh, E. J. Sudhölter, and L. C. De-smet, Surface modification methods of organic solvent nanofiltration membranes, Chem. Eng. J, vol.289, pp.562-582, 2016.

G. Szekely, M. F. Jimenez-solomon, P. Marchetti, J. F. Kim, and A. G. Livingston, Sustainability assessment of organic solvent nanofiltration: from fabrication to application, Green Chem, vol.16, pp.4440-4473, 2014.

L. S. White and C. R. Wildemuth, Aromatics Enrichment in Refinery Streams Using Hyperfiltration, Industrial & Engineering Chemistry Research, vol.45, pp.9136-9143, 2006.

W. Cai, Y. Sun, X. Piao, J. Li, and S. Zhu, Solvent Recovery from Soybean Oil/Hexane Miscella by PDMS Composite Membrane, Chinese Journal of Chemical Engineering, vol.19, pp.575-580, 2011.

L. R. Firman, N. A. Ochoa, J. Marchese, and C. L. Pagliero, Deacidification and solvent recovery of soybean oil by nanofiltration membranes, Journal of Membrane Science, vol.431, pp.187-196, 2013.

K. Hendrix, S. Vandoorne, G. Koeckelberghs, and I. F. Vankelecom, SRNF membranes for edible oil purification: Introducing free amines in crosslinked PEEK to increase membrane hydrophilicity, Polymer (United Kingdom), vol.55, pp.1307-1316, 2014.

D. Peshev, L. G. Peeva, G. Peev, I. I. Baptista, and A. T. Boam, Application of organic solvent nanofiltration for concentration of antioxidant extracts of rosemary, vol.89, pp.318-327, 2011.

A. R. Teixeira, J. L. Santos, and J. G. Crespo, Solvent resistant diananofiltration for production of steryl esters enriched extracts, Separation and Purification Technology, vol.135, pp.243-251, 2014.

M. V. Tres, H. C. Ferraz, R. M. Dallago, M. D. Luccio, and J. V. Oliveira, Characterization of polymeric membranes used in vegetable oil/organic solvents separation, Journal of Membrane Science, vol.362, pp.495-500, 2010.

Y. Kong, D. Shi, H. Yu, Y. Wang, J. Yang et al., International Congress on Membranes and Membrane ProcessesSeparation performance of polyimide nanofiltration membranes for solvent recovery from dewaxed lube oil filtrates, Desalination, issue.191, pp.254-261, 2006.

M. Namvar-mahboub and M. Pakizeh, Development of a novel thin film composite membrane by interfacial polymerization on polyetherimide/modified SiO2 support for organic solvent nanofiltration, Separation and Purification Technology, vol.119, pp.35-45, 2013.

R. Othman, A. W. Mohammad, M. Ismail, and J. Salimon, Application of polymeric solvent resistant nanofiltration membranes for biodiesel production, Journal of Membrane Science, vol.348, pp.287-297, 2010.

R. Othman, A. W. Mohammad, M. Ismail, and J. Salimon, Selectivity of Polymeric Solvent Resistant Nanofiltration Membranes for Biodiesel Separation, Sustainable Membrane Technology for Energy, Water, and Environment, pp.277-287, 2012.

M. Ravanchi, T. Kaghazchi, and A. Kargari, Application of membrane separation processes in petrochemical industry: a review, Desalination, vol.235, pp.199-244, 2009.

L. S. White and A. R. Nitsch, Solvent recovery from lube oil filtrates with a polyimide membrane, Journal of Membrane Science, vol.179, pp.267-274, 2000.

R. Abejón, A. Garea, and A. Irabien, Analysis and optimization of continuous organic solvent nanofiltration by membrane cascade for pharmaceutical separation, AIChE Journal, vol.60, pp.931-948, 2014.

S. Darvishmanesh, L. Firoozpour, J. Vanneste, P. Luis, J. Degrève et al., Performance of solvent resistant nanofiltration membranes for purification of residual solvent in the pharmaceutical industry: Experiments and simulation, Green Chem, vol.13, pp.3476-3483, 2011.

J. F. Kim, G. Székely, I. B. Valtcheva, and A. G. Livingston, Increasing the sustainability of membrane processes through cascade approach and solvent recovery -Pharmaceutical purification case study, Green Chem, vol.16, pp.133-145, 2014.

L. Peeva, J. D. Burgal, I. Valtcheva, and A. G. Livingston, Continuous purification of active pharmaceutical ingredients using multistage organic solvent nanofiltration membrane cascade, Chemical Engineering Science, vol.116, pp.183-194, 2014.

G. Székely, J. Bandarra, W. Heggie, B. Sellergren, and F. C. Ferreira, Organic solvent nanofiltration: A platform for removal of genotoxins from active pharmaceutical ingredients, Journal of Membrane Science, vol.381, pp.21-33, 2011.

G. Székely, J. Bandarra, W. Heggie, B. Sellergren, and F. C. Ferreira, A hybrid approach to reach stringent low genotoxic impurity contents in active pharmaceutical ingredients: Combining molecularly imprinted polymers and organic solvent nanofiltration for removal of 1,3-diisopropylurea, Separation and Purification Technology, vol.86, pp.79-87, 2012.

T. Fahrenwaldt, J. Großeheilmann, F. Erben, and U. Kragl, Organic solvent nanofiltration as a tool for separation of quinine-based organocatalysts, Org. Process Res. Dev, vol.17, pp.1131-1136, 2013.

J. Großeheilmann, H. Büttner, C. Kohrt, U. Kragl, and T. Werner, Recycling of phosphorus-based organocatalysts by organic solvent nanofiltration, ACS Sustainable Chemistry and Engineering, vol.3, pp.2817-2822, 2015.

J. Großeheilmann, T. Fahrenwaldt, and U. Kragl, Organic solvent nanofiltration-supported purification of organocatalysts, ChemCatChem, vol.8, pp.322-325, 2016.

J. F. Kim, G. Szekely, M. Schaepertoens, I. B. Valtcheva, M. F. Jimenez-solomon et al., In situ solvent recovery by organic solvent nanofiltration, ACS Sustainable Chemistry and Engineering, vol.2, pp.2371-2379, 2014.

P. G. Mertens, F. Cuypers, P. Vandezande, X. Ye, F. Verpoort et al., Ag0 and Co0 nanocolloids as recyclable quasihomogeneous metal catalysts for the hydrogenation of ?,?-unsaturated aldehydes to allylic alcohol fragrances, Applied Catalysis A: General, vol.325, pp.130-139, 2007.

P. G. Mertens, P. Vandezande, X. Ye, H. Poelman, I. F. Vankelecom et al.,

. Au0, Ag0 and Au0-Ag0 nanocolloids for the chemoselective hydrogenation of ?,?-unsaturated aldehydes and ketones to allylic alcohols, Applied Catalysis A: General, vol.355, pp.176-183, 2009.

R. Valadez-blanco, F. C. Ferreira, R. F. Jorge, and A. G. Livingston, A membrane bioreactor for biotransformations of hydrophobic molecules using organic solvent nanofiltration (OSN) membranes, Journal of Membrane Science, vol.317, pp.50-64, 2008.

D. Nair, S. S. Luthra, J. T. Scarpello, L. S. White, L. M. Freitas-dos-santos et al., Homogeneous catalyst separation and re-use through nanofiltration of organic solvents, Desalination, vol.147, pp.301-306, 2002.

A. R. Teixeira, J. L. Santos, and J. G. Crespo, Assessment of solvent resistant nanofiltration membranes for valorization of deodorizer distillates, Journal of Membrane Science, vol.470, pp.138-147, 2014.

D. Darnoko and M. Cheryan, Carotenoids from red palm methyl esters by nanofiltration, Journal of the American Oil Chemists' Society, vol.83, pp.365-370, 2006.

R. M. Gould, L. S. White, and C. R. Wildemuth, Membrane separation in solvent lube dewaxing, vol.20, pp.12-16, 2001.

S. Hermans, H. Mariën, C. Van-goethem, and I. F. Vankelecom, Recent developments in thin film (nano)composite membranes for solvent resistant nanofiltration, Current Opinion in Chemical Engineering, vol.8, pp.45-54, 2015.

N. Joseph, P. Ahmadiannamini, R. Hoogenboom, and I. F. Vankelecom, Layer-by-layer preparation of polyelectrolyte multilayer membranes for separation, Polymer Chemistry, vol.5, pp.1817-1831, 2014.

X. Li, S. De, D. Feyter, S. Chen, P. Aldea et al., Solventresistant nanofiltration membranes based on multilayered polyelectrolyte complexes, Chemistry of Materials, vol.20, pp.3876-3883, 2008.

X. Li, W. Goyens, P. Ahmadiannamini, W. Vanderlinden, S. De et al., Morphology and performance of solvent-resistant nanofiltration membranes based on multilayered polyelectrolytes: Study of preparation conditions, Journal of Membrane Science, vol.358, pp.150-157, 2010.

P. Ahmadiannamini, X. Li, W. Goyens, B. Meesschaert, and I. F. Vankelecom, Multilayered PEC nanofiltration membranes based on SPEEK/PDDA for anion separation, Journal of Membrane Science, vol.360, pp.250-258, 2010.

P. Ahmadiannamini, X. Li, W. Goyens, N. Joseph, B. Meesschaert et al., Multilayered polyelectrolyte complex based solvent resistant nanofiltration membranes prepared from weak polyacids, Journal of Membrane Science, pp.98-106, 2012.

P. Ahmadiannamini, X. Li, W. Goyens, B. Meesschaert, W. Vanderlinden et al.,

. Vankelecom, Influence of polyanion type and cationic counter ion on the SRNF performance of polyelectrolyte membranes, Journal of Membrane Science, pp.216-226, 2012.

D. Chen, Solvent-resistant nanofiltration membranes based on multilayered polyelectrolytes deposited on silicon composite, Journal of Applied Polymer Science, vol.129, pp.3156-3161, 2013.

Z. Wu, H. Chen, Y. Dong, H. Mao, J. Sun et al., Cleaning using nanobubbles: Defouling by electrochemical generation of bubbles, Journal of Colloid and Interface Science, vol.328, pp.10-14, 2008.

C. Zhao, J. Xue, F. Ran, and S. Sun, Modification of polyethersulfone membranes -A review of methods, Progress in Materials Science, vol.58, pp.76-150, 2013.

R. W. Baker, Membrane Technology and Applications, 2004.
DOI : 10.1002/9781118359686

URL : https://onlinelibrary.wiley.com/doi/pdf/10.1002/9781118359686.fmatter

K. Holmberg, B. Jonsson, B. Kronberg, and B. Lindman, Surfactants and Polymers in Aqueous Solution Wiley, 2002.

E. Celia, T. Darmanin, E. Taffin-de-givenchy, S. Amigoni, and F. Guittard, Recent advances in designing superhydrophobic surfaces, Journal of Colloid and Interface Science, vol.402, pp.1-18, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00844153

O. Azzaroni, Polymer brushes here, there, and everywhere: Recent advances in their practical applications and emerging opportunities in multiple research fields, Journal of Polymer Science Part A: Polymer Chemistry, vol.50, pp.3225-3258, 2012.

W. M. De-vos, A. De-keizer, M. A. Stuart, and J. M. Kleijn, Thin polymer films as sacrificial layers for easier cleaning, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.358, pp.6-12, 2010.

W. Shan, P. Bacchin, P. Aimar, M. L. Bruening, and V. V. Tarabara, Polyelectrolyte multilayer films as backflushable nanofiltration membranes with tunable hydrophilicity and surface charge, Journal of Membrane Science, vol.349, pp.268-278, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00570691

G. Decher, M. Eckle, J. Schmitt, and B. Struth, Layer-by-layer assembled multicomposite films, Current Opinion in Colloid & Interface Science, vol.3, pp.32-39, 1998.

G. Decher, J. D. Hong, and J. Schmitt, Buildup of ultrathin multilayer films by a self-assembly process: III. Consecutively alternating adsorption of anionic and cationic polyelectrolytes on charged surfaces, Thin Solid Films, vol.2, pp.831-835, 1992.

O. Sanyal and I. Lee, Recent Progress in the Applications of Layer-By-Layer Assembly to the Preparation of Nanostructured Ion-Rejecting Water Purification Membranes, Journal of Nanoscience and Nanotechnology, vol.14, pp.2178-2189, 2014.

D. M. Sullivan and M. L. Bruening, Ultrathin, Gas-Selective Polyimide Membranes Prepared from

, Multilayer Polyelectrolyte Films, Chemistry of Materials, vol.15, pp.281-287, 2002.

N. Joseph, P. Ahmadiannamini, R. Hoogenboom, and I. F. Vankelecom, Layer-by-layer preparation of polyelectrolyte multilayer membranes for separation, Polymer Chemistry, vol.5, pp.1817-1831, 2014.

W. Jin, A. Toutianoush, and B. Tieke, Use of Polyelectrolyte Layer-by-Layer Assemblies as Nanofiltration and Reverse Osmosis Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.2550-2553, 2003.

B. W. Stanton, J. J. Harris, M. D. Miller, and M. L. Bruening, Ultrathin, Multilayered Polyelectrolyte Films as Nanofiltration Membranes, vol.19, pp.7038-7042, 2003.

M. D. Miller and M. L. Bruening, Controlling the Nanofiltration Properties of Multilayer Polyelectrolyte Membranes through Variation of Film Composition, Langmuir : the ACS journal of surfaces and colloids, vol.20, pp.11545-11551, 2004.

S. U. Hong, M. D. Miller, and M. L. Bruening, Removal of Dyes, Sugars, and Amino Acids from NaCl Solutions Using Multilayer Polyelectrolyte Nanofiltration Membranes, Industrial & Engineering Chemistry Research, vol.45, pp.6284-6288, 2006.

B. Su, T. Wang, Z. Wang, X. Gao, and C. Gao, Preparation and performance of dynamic layer-by-layer PDADMAC/PSS nanofiltration membrane, Journal of Membrane Science, pp.324-331, 2012.

P. Ahmadiannamini, X. Li, W. Goyens, N. Joseph, B. Meesschaert et al., Multilayered polyelectrolyte complex based solvent resistant nanofiltration membranes prepared from weak polyacids, Journal of Membrane Science, pp.98-106, 2012.

C. Qiu, S. Qi, and C. Y. Tang, Synthesis of high flux forward osmosis membranes by chemically crosslinked layer-by-layer polyelectrolytes, Journal of Membrane Science, vol.381, pp.74-80, 2011.

C. Ba, D. A. Ladner, and J. Economy, Using polyelectrolyte coatings to improve fouling resistance of a positively charged nanofiltration membrane, Journal of Membrane Science, vol.347, pp.250-259, 2010.

B. P. Tripathi, N. C. Dubey, and M. Stamm, Functional polyelectrolyte multilayer membranes for water purification applications, Journal of Hazardous Materials, pp.401-412, 2013.

F. Diagne, R. Malaisamy, V. Boddie, R. D. Holbrook, B. Eribo et al., Polyelectrolyte and Silver Nanoparticle Modification of Microfiltration Membranes To Mitigate Organic and Bacterial Fouling, Environmental Science & Technology, vol.46, pp.4025-4033, 2012.

Y. Kouwonou, R. Malaisamy, and K. L. Jones, Modification of PES Membrane: Reduction of Biofouling and Improved Flux Recovery, Separation Science and Technology, vol.43, pp.4099-4112, 2008.

L. Tang, W. Gu, P. Yi, J. L. Bitter, J. Y. Hong et al., Bacterial anti-adhesive properties of polysulfone membranes modified with polyelectrolyte multilayers, Journal of Membrane Science, vol.446, pp.201-211, 2013.

I. Sawada, R. Fachrul, T. Ito, Y. Ohmukai, T. Maruyama et al., Development of a hydrophilic polymer membrane containing silver nanoparticles with both organic antifouling and antibacterial properties, Journal of Membrane Science, pp.1-6, 2012.

M. Ben-sasson, X. Lu, E. Bar-zeev, K. R. Zodrow, S. Nejati et al., In situ formation of silver nanoparticles on thin-film composite reverse osmosis membranes for biofouling mitigation, Water Research, vol.62, pp.260-270, 2014.

X. Zan and Z. Su, Polyelectrolyte multilayer films containing silver as antibacterial coatings, Thin Solid Films, vol.518, pp.5478-5482, 2010.

N. Wang, G. Zhang, S. Ji, Z. Qin, and Z. Liu, The salt-, pH-and oxidant-responsive pervaporation behaviors of weak polyelectrolyte multilayer membranes, Journal of Membrane Science, vol.354, pp.14-22, 2010.

Y. Cho, J. Lim, and K. Char, Layer-by-layer assembled stimuli-responsive nanoporous membranes, Soft Matter, vol.8, p.10271, 2012.

D. Wandera, S. R. Wickramasinghe, and S. M. Husson, Stimuli-responsive membranes, Journal of Membrane Science, vol.357, pp.6-35, 2010.

J. De-grooth, M. Dong, W. M. De-vos, and K. Nijmeijer, Building Polyzwitterion-Based Multilayers for Responsive Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.30, pp.5152-5161, 2014.

L. Ouyang, R. Malaisamy, and M. L. Bruening, Multilayer polyelectrolyte films as nanofiltration membranes for separating monovalent and divalent cations, Journal of Membrane Science, vol.310, pp.76-84, 2008.

S. U. Hong, L. Ouyang, and M. L. Bruening, Recovery of phosphate using multilayer polyelectrolyte nanofiltration membranes, Journal of Membrane Science, vol.327, pp.2-5, 2009.

C. Magnenet, F. E. Jurin, S. Lakard, C. C. Buron, and B. Lakard, Polyelectrolyte modification of ultrafiltration membrane for removal of copper ions, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.435, pp.170-177, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00873861

C. Magnenet, S. Lakard, C. C. Buron, and B. Lakard, Functionalization of organic membranes by polyelectrolyte multilayer assemblies: Application to the removal of copper ions from aqueous solutions, Journal of Colloid and Interface Science, vol.376, pp.202-208, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00711754

D. M. Lynn, Peeling Back the Layers: Controlled Erosion and Triggered Disassembly of Multilayered Polyelectrolyte Thin Films, Advanced Materials, vol.19, pp.4118-4130, 2007.

S. T. Dubas and J. B. Schlenoff, Polyelectrolyte Multilayers Containing a Weak Polyacid: Construction and Deconstruction, Macromolecules, vol.34, pp.3736-3740, 2001.

D. Kovacevic, S. Van-der-burgh, A. De-keizer, and M. A. Stuart, Kinetics of Formation and Dissolution of Weak Polyelectrolyte Multilayers: Role of Salt and Free Polyions, Langmuir : the ACS journal of surfaces and colloids, vol.18, pp.5607-5612, 2002.

J. C. Dijt, M. A. Stuart, J. E. Hofman, and G. J. Fleer, Kinetics of polymer adsorption in stagnation point flow, Colloids and Surfaces, vol.52, pp.141-158, 1990.

J. C. Dijt, M. A. Stuart, and G. J. Fleer, Reflectometry as a tool for adsorption studies, Advances in Colloid and Interface Science, vol.50, pp.79-101, 1994.

S. S. Shiratori and M. F. Rubner, pH-Dependent Thickness Behavior of Sequentially Adsorbed Layers of Weak polyelectrolytes, Macromolecules, vol.33, pp.4213-4219, 2000.

J. D. Decher, Buildup of ultrathin multilayer films by a self-assembly process: III. Consecutively alternating adsorption of anionic and cationic polyelectrolytes on charged surfaces, Thin Solid Films, pp.831-835, 1992.

J. B. Schlenoff, H. Ly, and M. Li, Charge and Mass Balance in Polyelectrolyte Multilayers, Journal of the American Chemical Society, vol.120, pp.7626-7634, 1998.

R. V. Klitzing, Internal structure of polyelectrolyte multilayer assemblies, Physical Chemistry Chemical Physics, vol.8, pp.5012-5033, 2006.

J. De-grooth, R. Oborný, J. Potreck, K. Nijmeijer, and W. M. De-vos, The role of ionic strength and oddeven effects on the properties of polyelectrolyte multilayer nanofiltration membranes, Journal of Membrane Science, vol.475, pp.311-319, 2015.

S. A. Sukhishvili, S. Granick, and L. , Erasable Polymer Multilayers Formed by Hydrogen-Bonded Sequential Self-Assembly, Macromolecules, vol.35, pp.301-310, 2001.

J. De-grooth, D. M. Reurink, J. Ploegmakers, W. M. De-vos, and K. Nijmeijer, Charged Micropollutant Removal With Hollow Fiber Nanofiltration Membranes Based On Polycation/Polyzwitterion/Polyanion Multilayers, ACS applied materials & interfaces, vol.6, pp.17009-17017, 2014.

N. S. Thomaidis, A. G. Asimakopoulos, and A. A. Bletsou, Emerging contaminants: A tutorial mini-review, Global Nest J, vol.14, pp.72-79, 2012.

, Global Chemical Outlook; Towards Sound Management of Chemicals, United Nations Environment Programme, 2012.

M. Kuzmanovic´, A. Ginebreda, M. Petrovic´, and D. Barcelo´, Risk assessment based prioritization of 200 organic micropollutants in 4 Iberian rivers, Science of the Total Environment, 2014.

Y. Luo, W. Guo, H. H. Ngo, L. D. Nghiem, F. I. Hai et al., A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment, Science of the Total Environment, pp.619-641, 2014.

E. D. Van-der-aa, L. Bijlsma, E. Emke, B. M. Van-de-ven, A. L. Van-nuijs et al., de Voogt Drugs of Abuse and Tranquilizers in Dutch Surface Waters, Drinking Water and Wastewater -Results of Screening Monitoring, 2009.

E. Cho, J. Khim, S. Chung, D. Seo, and Y. Son, Occurrence of micropollutants in four major rivers in Korea, Science of the Total Environment, pp.138-147, 2014.

K. K. Barnes, D. W. Kolpin, E. T. Furlong, S. D. Zaugg, M. T. Meyer et al., A national reconnaissance of pharmaceuticals and other organic wastewater contaminants in the United States -I)

. Groundwater, Science of The Total Environment, vol.402, pp.192-200, 2008.

Q. Sui, J. Huang, S. Deng, G. Yu, and Q. Fan, Occurrence and removal of pharmaceuticals, caffeine and DEET in wastewater treatment plants of Beijing, Water research, vol.44, pp.417-426, 2010.

D. Rozman, Z. Hrkal, P. Eckhardt, E. Novotná, and Z. Boukalová, Pharmaceuticals in groundwaters: a case study of the psychiatric hospital at Horní Be?kovice, Environ. Earth Sci, 2014.

L. Pasquini, J. F. Munoz, M. N. Pons, J. Yvon, X. Dauchy et al.,

. Görner, Occurrence of eight household micropollutants in urban wastewater and their fate in a wastewater treatment plant. Statistical evaluation, Science of the Total Environment, vol.481, pp.459-448, 2014.

C. J. Houtman, J. Kroesbergen, K. Lekkerkerker-teunissen, and J. P. Van-der-hoek, Human health risk assessment of the mixture of pharmaceuticals in Dutch drinking water and its sources based on frequent monitoring data, Science of The Total Environment, vol.496, pp.54-62, 2014.

T. Heberer, Occurrence, fate, and removal of pharmaceutical residues in the aquatic environment: a review of recent research data, Toxicology Letters, vol.131, pp.5-17, 2002.

S. Kleywegt, V. Pileggi, P. Yang, C. Hao, X. Zhao et al., Pharmaceuticals, hormones and bisphenol A in untreated source and finished drinking water in Ontario, Canada -Occurrence and treatment efficiency, Science of The Total Environment, vol.409, pp.1481-1488, 2011.

A. Verliefde, E. Cornelissen, G. Amy, B. Van-der-bruggen, and H. Van-dijk, Priority organic micropollutants in water sources in Flanders and the Netherlands and assessment of removal possibilities with nanofiltration, Environmental Pollution, vol.146, pp.281-289, 2007.

J. Rivera-utrilla, M. Sánchez-polo, M. Á. Ferro-garcía, G. Prados-joya, and R. Ocampo-pérez, Pharmaceuticals as emerging contaminants and their removal from water. A review, pp.1268-1287, 2013.

I. Michael, L. Rizzo, C. S. Mcardell, C. M. Manaia, C. Merlin et al.,

. Kassinos, Urban wastewater treatment plants as hotspots for the release of antibiotics in the environment: A review, Water research, vol.47, pp.957-995, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01507503

R. I. Eggen, J. Hollender, A. Joss, M. Schärer, and C. Stamm, Reducing the discharge of micropollutants in the aquatic environment: The benefits of upgrading wastewater treatment plants, Environ. Sci. Technol, vol.48, pp.7683-7689, 2014.

J. H. Al-rifai, H. Khabbaz, and A. I. Schäfer, Removal of pharmaceuticals and endocrine disrupting compounds in a water recycling process using reverse osmosis systems, Separation and Purification Technology, vol.77, pp.60-67, 2011.

J. L. Acero, F. J. Benitez, F. J. Real, and F. Teva, Micropollutants removal from retentates generated in ultrafiltration and nanofiltration treatments of municipal secondary effluents by means of coagulation, oxidation, and adsorption processes, Chem. Eng. J, vol.289, pp.48-58, 2016.

C. Bellona, D. Heil, C. Yu, P. Fu, and J. E. Drewes, The pros and cons of using nanofiltration in lieu of reverse osmosis for indirect potable reuse applications, Separation and Purification Technology, vol.85, pp.69-76, 2012.

V. Yangali-quintanilla, S. K. Maeng, T. Fujioka, M. Kennedy, and G. Amy, Proposing nanofiltration as acceptable barrier for organic contaminants in water reuse, Journal of Membrane Science, vol.362, pp.334-345, 2010.

Y. Zhang, B. Van-der-bruggen, G. X. Chen, L. Braeken, and C. Vandecasteele, Removal of pesticides by nanofiltration: effect of the water matrix, Separation and Purification Technology, vol.38, pp.163-172, 2004.

Y. Zhang, C. Causserand, P. Aimar, and J. P. Cravedi, Removal of bisphenol A by a nanofiltration membrane in view of drinking water production, Water research, vol.40, pp.3793-3799, 2006.

R. Boussahel, S. Bouland, K. M. Moussaoui, and A. Montiel, Removal of pesticide residues in water using the nanofiltration process, Desalination, vol.132, pp.205-209, 2000.

J. Geens, B. Van-der-bruggen, and C. Vandecasteele, Transport model for solvent permeation through nanofiltration membranes, Separation and Purification Technology, vol.48, pp.255-263, 2006.

K. Ko?uti?, L. Fura?, L. Sipos, and B. Kunst, Removal of arsenic and pesticides from drinking water by nanofiltration membranes, Separation and Purification Technology, vol.42, pp.137-144, 2005.

K. V. Plakas and A. J. Karabelas, Removal of pesticides from water by NF and RO membranes -A review, Desalination, pp.255-265, 2012.

J. Tay, J. Liu, and D. Sun, Effect of solution physico-chemistry on the charge property of nanofiltration membranes, Water research, vol.36, pp.585-598, 2002.

B. Van-der-bruggen, J. Schaep, W. Maes, D. Wilms, and C. Vandecasteele, Nanofiltration as a treatment method for the removal of pesticides from ground waters, Desalination, vol.117, pp.139-147, 1998.

B. Van-der-bruggen, J. Schaep, D. Wilms, and C. Vandecasteele, Influence of molecular size, polarity and charge on the retention of organic molecules by nanofiltration, Journal of Membrane Science, vol.156, pp.29-41, 1999.

W. R. Bowen and J. S. Welfoot, Modelling the performance of membrane nanofiltration-critical assessment and model development, Chemical Engineering Science, vol.57, pp.1121-1137, 2002.

M. L. Bruening and D. M. Sullivan, Enhancing the Ion-Transport Selectivity of Multilayer Polyelectrolyte Membranes, Chemistry -A European Journal, vol.8, pp.3832-3837, 2002.

J. J. Harris, J. L. Stair, and M. L. Bruening, Layered Polyelectrolyte Films as Selective, Ultrathin Barriers for Anion Transport, Chemistry of Materials, vol.12, pp.1941-1946, 2000.

S. U. Hong, R. Malaisamy, and M. L. Bruening, Optimization of flux and selectivity in Cl?/SO42? separations with multilayer polyelectrolyte membranes, Journal of Membrane Science, vol.283, pp.366-372, 2006.

G. Liu, D. M. Dotzauer, and M. L. Bruening, Ion-Exchange Membranes Prepared Using Layer-by-Layer Polyelectrolyte Deposition, J Memb Sci, vol.354, pp.198-205, 2010.
DOI : 10.1016/j.memsci.2010.02.047

URL : http://europepmc.org/articles/pmc2894478?pdf=render

R. Malaisamy and M. L. Bruening, High-Flux Nanofiltration Membranes Prepared by Adsorption of

, Multilayer Polyelectrolyte Membranes on Polymeric Supports, vol.21, pp.10587-10592, 2005.

M. D. Miller and M. L. Bruening, Controlling the Nanofiltration Properties of Multilayer Polyelectrolyte Membranes through Variation of Film Composition, Langmuir : the ACS journal of surfaces and colloids, vol.20, pp.11545-11551, 2004.

L. Ouyang, R. Malaisamy, and M. L. Bruening, Multilayer polyelectrolyte films as nanofiltration membranes for separating monovalent and divalent cations, Journal of Membrane Science, vol.310, pp.76-84, 2008.
DOI : 10.1016/j.memsci.2007.10.031

W. Shan, P. Bacchin, P. Aimar, M. L. Bruening, and V. V. Tarabara, Polyelectrolyte multilayer films as backflushable nanofiltration membranes with tunable hydrophilicity and surface charge, Journal of Membrane Science, vol.349, pp.268-278, 2010.
DOI : 10.1016/j.memsci.2009.11.059

URL : https://hal.archives-ouvertes.fr/hal-00570691

J. L. Stair, J. J. Harris, and M. L. Bruening, Enhancement of the Ion-Transport Selectivity of Layered Polyelectrolyte Membranes through Cross-Linking and Hybridization, Chemistry of Materials, vol.13, pp.2641-2648, 2001.

B. W. Stanton, J. J. Harris, M. D. Miller, and M. L. Bruening, Ultrathin, Multilayered Polyelectrolyte Films as Nanofiltration Membranes, vol.19, pp.7038-7042, 2003.
DOI : 10.1021/la034603a

K. Hoffmann, T. Friedrich, and B. Tieke, Layer-by-layer assembled polyelectrolyte blend membranes and their use for ion separation and rejection, Polymer Engineering & Science, vol.51, pp.1497-1506, 2011.

W. Jin, A. Toutianoush, and B. Tieke, Use of Polyelectrolyte Layer-by-Layer Assemblies as Nanofiltration and Reverse Osmosis Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.2550-2553, 2003.

A. Toutianoush, W. Jin, H. S. Delig?z, and B. Tieke, Polyelectrolyte multilayer membranes for desalination of aqueous salt solutions and seawater under reverse osmosis conditions, Applied Surface Science, vol.246, pp.437-443, 2005.

X. Liu and M. L. Bruening, Size-Selective Transport of Uncharged Solutes through Multilayer Polyelectrolyte Membranes, Chemistry of Materials, vol.16, pp.351-357, 2003.

S. U. Hong, M. D. Miller, and M. L. Bruening, Removal of Dyes, Sugars, and Amino Acids from NaCl Solutions Using Multilayer Polyelectrolyte Nanofiltration Membranes, Industrial & Engineering Chemistry Research, vol.45, pp.6284-6288, 2006.

T. Ishigami, K. Amano, A. Fujii, Y. Ohmukai, E. Kamio et al., Fouling reduction of reverse osmosis membrane by surface modification via layer-by-layer assembly, Separation and Purification Technology, pp.1-7, 2012.

J. De-grooth, R. Oborný, J. Potreck, K. Nijmeijer, and W. M. De-vos, The role of ionic strength and oddeven effects on the properties of polyelectrolyte multilayer nanofiltration membranes, Journal of Membrane Science, vol.475, pp.311-319, 2015.

J. De-grooth, B. Haakmeester, C. Wever, J. Potreck, W. M. De-vos et al., Long term physical and chemical stability of polyelectrolyte multilayer membranes, Journal of Membrane Science, vol.489, pp.153-159, 2015.

D. Menne, J. Kamp, J. E. Wong, and M. Wessling, Precise tuning of salt retention of backwashable polyelectrolyte multilayer hollow fiber nanofiltration membranes, Journal of Membrane Science, vol.499, pp.396-405, 2016.

J. De-grooth, D. M. Reurink, J. Ploegmakers, W. M. De-vos, and K. Nijmeijer, Charged Micropollutant Removal With Hollow Fiber Nanofiltration Membranes Based On Polycation/Polyzwitterion/Polyanion Multilayers, ACS applied materials & interfaces, vol.6, pp.17009-17017, 2014.

S. Ilyas, J. De-grooth, K. Nijmeijer, and W. M. De-vos, Multifunctional polyelectrolyte multilayers as nanofiltration membranes and as sacrificial layers for easy membrane cleaning, Journal of colloid and interface science, vol.446, pp.386-393, 2015.

L. Krasemann and B. Tieke, Selective Ion Transport across Self-Assembled Alternating Multilayers of Cationic and Anionic Polyelectrolytes, Langmuir : the ACS journal of surfaces and colloids, vol.16, pp.287-290, 1999.

D. Yoo, S. S. Shiratori, and M. F. Rubner, Controlling Bilayer Composition and Surface Wettability of Sequentially Adsorbed Multilayers of Weak Polyelectrolytes, Macromolecules, pp.4309-4318, 1998.

S. S. Shiratori and M. F. Rubner, pH-Dependent Thickness Behavior of Sequentially Adsorbed Layers of Weak polyelectrolytes, Macromolecules, vol.33, pp.4213-4219, 2000.

V. Izumrudov, E. Kharlampieva, and S. A. Sukhishvili, Salt-Induced Multilayer Growth: Correlation with Phase Separation in Solution, Macromolecules, vol.37, pp.8400-8406, 2004.

V. Izumrudov and S. A. Sukhishvili, Ionization-Controlled Stability of Polyelectrolyte Multilayers in Salt Solutions, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.5188-5191, 2003.

S. Ilyas, N. Joseph, A. Szymczyk, A. Volodin, K. Nijmeijer et al., Weak polyelectrolyte multilayers as tunable membranes for solvent resistant nanofiltration, Journal of Membrane Science, vol.514, pp.322-331, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01338527

P. Ahmadiannamini, M. L. Bruening, and V. V. Tarabara, Sacrificial polyelectrolyte multilayer coatings as an approach to membrane fouling control: Disassembly and regeneration mechanisms, Journal of Membrane Science, vol.491, pp.149-158, 2015.

J. C. Dijt, M. A. Stuart, J. E. Hofman, and G. J. Fleer, Kinetics of polymer adsorption in stagnation point flow, Colloids and Surfaces, pp.141-158, 1990.

W. M. De-vos, A. De-keizer, M. A. Stuart, and J. M. Kleijn, Thin polymer films as sacrificial layers for easier cleaning, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.358, pp.6-12, 2010.

J. Choi and M. F. Rubner, Influence of the Degree of Ionization on Weak Polyelectrolyte Multilayer Assembly, vol.38, pp.116-124, 2004.

J. B. Schlenoff, H. Ly, and M. Li, Charge and Mass Balance in Polyelectrolyte Multilayers, Journal of the American Chemical Society, vol.120, pp.7626-7634, 1998.

J. B. Schlenoff and S. T. Dubas, Mechanism of Polyelectrolyte Multilayer Growth: Charge Overcompensation and Distribution, Macromolecules, vol.34, pp.592-598, 2001.

S. T. Dubas and J. B. Schlenoff, Factors Controlling the Growth of Polyelectrolyte Multilayers, Macromolecules, vol.32, pp.8153-8160, 1999.

W. M. De-vos, L. L. Mears, R. M. Richardson, T. Cosgrove, R. Barker et al., Nonuniform Hydration and Odd-Even Effects in Polyelectrolyte Multilayers under a Confining Pressure, Macromolecules, vol.46, pp.1027-1034, 2013.

R. A. Ghostine, M. Z. Markarian, and J. B. Schlenoff, Asymmetric growth in polyelectrolyte multilayers, Journal of the American Chemical Society, vol.135, pp.7636-7646, 2013.

D. Rana and T. Matsuura, Surface Modifications for Antifouling Membranes, vol.110, pp.2448-2471, 2010.

A. I. Schäfer, A. G. Fane, and T. D. Waite, Nanofiltration : principles and applications, 2005.

A. Szymczyk and P. Fievet, Investigating transport properties of nanofiltration membranes by means of a steric, electric and dielectric exclusion model, Journal of Membrane Science, vol.252, pp.77-88, 2005.

A. E. Yaroshchuk, Dielectric exclusion of ions from membranes, Advances in Colloid and Interface Science, vol.85, pp.193-230, 2000.

B. Van-der-bruggen, J. Schaep, W. Maes, D. Wilms, and C. Vandecasteele, Nanofiltration as a treatment method for the removal of pesticides from ground waters, Desalination, vol.117, pp.139-147, 1998.

M. Y. Kiriukhin and K. D. Collins, Dynamic hydration numbers for biologically important ions, Biophysical Chemistry, vol.99, pp.155-168, 2002.

C. Bellona, J. E. Drewes, P. Xu, and G. Amy, Factors affecting the rejection of organic solutes during NF/RO treatment-a literature review, Water research, vol.38, pp.2795-2809, 2004.

P. Vandezande, L. E. Gevers, and I. F. Vankelecom, Solvent resistant nanofiltration: Separating on a molecular level, Chem. Soc. Rev, vol.37, pp.365-405, 2008.

A. V. Volkov, D. F. Stamatialis, V. S. Khotimsky, V. V. Volkov, M. Wessling et al., New membrane material for SRNF applications, Desalination, issue.199, pp.251-252, 2006.

P. Marchetti, M. F. Jimenez-solomon, G. Szekely, and A. G. Livingston, Molecular Separation with Organic Solvent Nanofiltration: A Critical Review, Chemical Reviews, vol.114, pp.10735-10806, 2014.

D. Bhanushali and D. Bhattacharyya, Advances in Solvent-Resistant Nanofiltration Membranes, Annals of the New York Academy of Sciences, vol.984, pp.159-177, 2003.

K. Hendrix, S. Vandoorne, G. Koeckelberghs, and I. F. Vankelecom, SRNF membranes for edible oil purification: Introducing free amines in crosslinked PEEK to increase membrane hydrophilicity, Polymer (United Kingdom), vol.55, pp.1307-1316, 2014.

S. Aerts, A. Buekenhoudt, H. Weyten, L. E. Gevers, I. F. Vankelecom et al., The use of solvent resistant nanofiltration in the recycling of the Co-Jacobsen catalyst in the hydrolytic kinetic resolution (HKR) of epoxides, Journal of Membrane Science, vol.280, pp.245-252, 2006.

L. Peeva, J. D. Burgal, I. Valtcheva, and A. G. Livingston, Continuous purification of active pharmaceutical ingredients using multistage organic solvent nanofiltration membrane cascade, Chemical Engineering Science, vol.116, pp.183-194, 2014.

H. J. Zwijnenberg, S. M. Dutczak, M. E. Boerrigter, M. A. Hempenius, M. W. Luiten-olieman et al.,

M. Benes, D. Wessling, and . Stamatialis, Important factors influencing molecular weight cut-off determination of membranes in organic solvents, Journal of Membrane Science, pp.211-217, 2012.

A. W. Mohammad, Y. H. Teow, W. L. Ang, Y. T. Chung, D. L. Oatley-radcliffe et al., Nanofiltration membranes review: Recent advances and future prospects, vol.356, pp.226-254, 2015.

S. Hermans, H. Mariën, C. Van-goethem, and I. F. Vankelecom, Recent developments in thin film (nano)composite membranes for solvent resistant nanofiltration, Current Opinion in Chemical Engineering, vol.8, pp.45-54, 2015.

P. Silva, S. Han, and A. G. Livingston, Solvent transport in organic solvent nanofiltration membranes, Journal of Membrane Science, vol.262, pp.49-59, 2005.

N. Joseph, P. Ahmadiannamini, R. Hoogenboom, and I. F. Vankelecom, Layer-by-layer preparation of polyelectrolyte multilayer membranes for separation, Polymer Chemistry, vol.5, pp.1817-1831, 2014.

L. Krasemann and B. Tieke, Selective Ion Transport across Self-Assembled Alternating Multilayers of Cationic and Anionic Polyelectrolytes, Langmuir : the ACS journal of surfaces and colloids, p.16, 1999.

W. Jin, A. Toutianoush, and B. Tieke, Use of Polyelectrolyte Layer-by-Layer Assemblies as Nanofiltration and Reverse Osmosis Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.2550-2553, 2003.

J. Park, J. Park, S. H. Kim, J. Cho, and J. Bang, Desalination membranes from pH-controlled and thermally-crosslinked layer-by-layer assembled multilayers, Journal of Materials Chemistry, vol.20, p.2085, 2010.
DOI : 10.1039/b918921a

S. U. Hong, L. Ouyang, and M. L. Bruening, Recovery of phosphate using multilayer polyelectrolyte nanofiltration membranes, Journal of Membrane Science, vol.327, pp.2-5, 2009.

G. Liu, D. M. Dotzauer, and M. L. Bruening, Ion-Exchange Membranes Prepared Using Layer-by-Layer Polyelectrolyte Deposition, J Memb Sci, vol.354, pp.198-205, 2010.

C. Magnenet, S. Lakard, C. C. Buron, and B. Lakard, Functionalization of organic membranes by polyelectrolyte multilayer assemblies: application to the removal of copper ions from aqueous solutions, Journal of colloid and interface science, vol.376, pp.202-208, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00711754

C. Magnenet, F. E. Jurin, S. Lakard, C. C. Buron, and B. Lakard, Polyelectrolyte modification of ultrafiltration membrane for removal of copper ions, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.435, pp.170-177, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00873861

B. W. Stanton, J. J. Harris, M. D. Miller, and M. L. Bruening, Ultrathin, Multilayered Polyelectrolyte Films as Nanofiltration Membranes, vol.19, pp.7038-7042, 2003.

M. D. Miller and M. L. Bruening, Controlling the Nanofiltration Properties of Multilayer Polyelectrolyte Membranes through Variation of Film Composition, Langmuir : the ACS journal of surfaces and colloids, vol.20, pp.11545-11551, 2004.

R. Malaisamy and M. L. Bruening, High-Flux Nanofiltration Membranes Prepared by Adsorption of

, Multilayer Polyelectrolyte Membranes on Polymeric Supports, vol.21, pp.10587-10592, 2005.

X. Liu and M. L. Bruening, Size-Selective Transport of Uncharged Solutes through Multilayer Polyelectrolyte Membranes, Chemistry of Materials, vol.16, pp.351-357, 2003.

S. U. Hong, M. D. Miller, and M. L. Bruening, Removal of Dyes, Sugars, and Amino Acids from NaCl Solutions Using Multilayer Polyelectrolyte Nanofiltration Membranes, Industrial & Engineering Chemistry Research, vol.45, pp.6284-6288, 2006.

L. Ouyang, R. Malaisamy, and M. L. Bruening, Multilayer polyelectrolyte films as nanofiltration membranes for separating monovalent and divalent cations, Journal of Membrane Science, vol.310, pp.76-84, 2008.

L. Y. Ng, A. W. Mohammad, and C. Y. Ng, A review on nanofiltration membrane fabrication and modification using polyelectrolytes: Effective ways to develop membrane selective barriers and rejection capability, Advances in Colloid and Interface Science, pp.85-107, 2013.

P. Ahmadiannamini, X. Li, W. Goyens, N. Joseph, B. Meesschaert et al., Multilayered polyelectrolyte complex based solvent resistant nanofiltration membranes prepared from weak polyacids, Journal of Membrane Science, pp.98-106, 2012.

P. Ahmadiannamini, X. Li, W. Goyens, B. Meesschaert, W. Vanderlinden et al.,

. Vankelecom, Influence of polyanion type and cationic counter ion on the SRNF performance of polyelectrolyte membranes, Journal of Membrane Science, pp.216-226, 2012.

P. Ahmadiannamini, X. Li, W. Goyens, B. Meesschaert, and I. F. Vankelecom, Multilayered PEC nanofiltration membranes based on SPEEK/PDDA for anion separation, Journal of Membrane Science, vol.360, pp.250-258, 2010.

X. Li, S. De, D. Feyter, S. Chen, P. Aldea et al., Solventresistant nanofiltration membranes based on multilayered polyelectrolyte complexes, Chemistry of Materials, vol.20, pp.3876-3883, 2008.

X. Li, W. Goyens, P. Ahmadiannamini, W. Vanderlinden, S. De et al., Morphology and performance of solvent-resistant nanofiltration membranes based on multilayered polyelectrolytes: Study of preparation conditions, Journal of Membrane Science, vol.358, pp.150-157, 2010.

N. Joseph, P. Ahmadiannamini, P. S. Jishna, A. Volodin, and I. F. Vankelecom, Up-scaling' potential for polyelectrolyte multilayer membranes, Journal of Membrane Science, vol.492, pp.271-280, 2015.

L. Krasemann and B. Tieke, Selective Ion Transport across Self-Assembled Alternating Multilayers of Cationic and Anionic Polyelectrolytes, Langmuir : the ACS journal of surfaces and colloids, vol.16, pp.287-290, 2000.

J. B. Schlenoff, H. Ly, and M. Li, Charge and Mass Balance in Polyelectrolyte Multilayers, Journal of the American Chemical Society, vol.120, pp.7626-7634, 1998.

J. De-grooth, R. Oborný, J. Potreck, K. Nijmeijer, and W. M. De-vos, The role of ionic strength and oddeven effects on the properties of polyelectrolyte multilayer nanofiltration membranes, Journal of Membrane Science, vol.475, pp.311-319, 2015.

S. T. Dubas and J. B. Schlenoff, Polyelectrolyte Multilayers Containing a Weak Polyacid: Construction and Deconstruction, Macromolecules, vol.34, pp.3736-3740, 2001.

D. Kovacevic, S. Van-der-burgh, A. De-keizer, and M. A. Stuart, Kinetics of Formation and Dissolution of Weak Polyelectrolyte Multilayers: Role of Salt and Free Polyions, Langmuir : the ACS journal of surfaces and colloids, vol.18, pp.5607-5612, 2002.

S. U. Hong, R. Malaisamy, and M. L. Bruening, Optimization of flux and selectivity in Cl?/SO42? separations with multilayer polyelectrolyte membranes, Journal of Membrane Science, vol.283, pp.366-372, 2006.

D. Yoo, S. S. Shiratori, and M. F. Rubner, Controlling Bilayer Composition and Surface Wettability of Sequentially Adsorbed Multilayers of Weak Polyelectrolytes, Macromolecules, pp.4309-4318, 1998.

S. S. Shiratori and M. F. Rubner, pH-Dependent Thickness Behavior of Sequentially Adsorbed Layers of Weak polyelectrolytes, Macromolecules, vol.33, pp.4213-4219, 2000.

V. Izumrudov, E. Kharlampieva, and S. A. Sukhishvili, Salt-Induced Multilayer Growth: Correlation with Phase Separation in Solution, Macromolecules, vol.37, pp.8400-8406, 2004.

V. Izumrudov and S. A. Sukhishvili, Ionization-Controlled Stability of Polyelectrolyte Multilayers in Salt Solutions, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.5188-5191, 2003.

S. Ilyas, J. De-grooth, K. Nijmeijer, and W. M. De-vos, Multifunctional polyelectrolyte multilayers as nanofiltration membranes and as sacrificial layers for easy membrane cleaning, Journal of colloid and interface science, vol.446, pp.386-393, 2015.

P. Ahmadiannamini, M. L. Bruening, and V. V. Tarabara, Sacrificial polyelectrolyte multilayer coatings as an approach to membrane fouling control: Disassembly and regeneration mechanisms, Journal of Membrane Science, vol.491, pp.149-158, 2015.

I. M. Smallwood, Handbook of Organic Solvent Properties, pp.73-291, 1996.

J. Choi and M. F. Rubner, Influence of the Degree of Ionization on Weak Polyelectrolyte Multilayer Assembly, vol.38, pp.116-124, 2004.

G. Zhang, H. Meng, and S. Ji, Hydrolysis differences of polyacrylonitrile support membrane and its influences on polyacrylonitrile-based membrane performance, Desalination, pp.313-324, 2009.

P. Marchetti, M. F. Jimenez-solomon, G. Szekely, and A. G. Livingston, Molecular Separation with Organic Solvent Nanofiltration: A Critical Review, Chemical Reviews, 2014.

D. F. Stamatialis, N. Stafie, K. Buadu, M. Hempenius, and M. Wessling, Observations on the permeation performance of solvent resistant nanofiltration membranes, Journal of Membrane Science, p.279, 2006.

L. E. Gevers, G. Meyen, K. De, P. Smet, F. Van-de-velde et al.,

. Jacobs, Physico-chemical interpretation of the SRNF transport mechanism for solutes through dense silicone membranes, Journal of Membrane Science, vol.274, pp.173-182, 2006.

A. W. Mohammad, Y. H. Teow, W. L. Ang, Y. T. Chung, D. L. Oatley-radcliffe et al., Nanofiltration membranes review: Recent advances and future prospects, vol.356, pp.226-254, 2015.

M. Pontié, H. Dach, J. Leparc, M. Hafsi, and A. Lhassani, GreeceNovel approach combining physico-chemical characterizations and mass transfer modelling of nanofiltration and low pressure reverse osmosis membranes for brackish water desalination intensification, European Desalination Society and Center for Research and Technology Hellas (CERTH), vol.221, pp.174-191, 2007.

, Membrane filtration technologies tackle water reuse and purification, Membrane Technology, pp.9-11, 2007.

W. Guo, H. Ngo, and J. Li, A mini-review on membrane fouling, Bioresour. Technol, vol.122, pp.27-34, 2012.

A. Al-amoudi and R. W. Lovitt, Fouling strategies and the cleaning system of NF membranes and factors affecting cleaning efficiency, Journal of Membrane Science, vol.303, pp.4-28, 2007.

A. Al-amoudi, P. Williams, S. Mandale, and R. W. Lovitt, Cleaning results of new and fouled nanofiltration membrane characterized by zeta potential and permeability, Separation and Purification Technology, vol.54, pp.234-240, 2007.

P. Ahmadiannamini, M. L. Bruening, and V. V. Tarabara, Sacrificial polyelectrolyte multilayer coatings as an approach to membrane fouling control: Disassembly and regeneration mechanisms, Journal of Membrane Science, 2015.

G. Pearce, Introduction to membranes: Fouling control, Filtration & Separation, vol.44, pp.30-32, 2007.

A. I. Schäfer, A. G. Fane, and T. D. Waite, Nanofiltration: principles and applications, 2005.

L. Liu, D. Y. Di, H. Park, M. Son, H. Hur et al., Improved antifouling performance of polyethersulfone (PES) membrane via surface modification by CNTs bound polyelectrolyte multilayers, RSC Advances, vol.5, pp.7340-7348, 2015.

H. Guo, Y. Ma, P. Sun, S. Cui, Z. Qin et al., Self-cleaning and antifouling nanofiltration membranes-superhydrophilic multilayered polyelectrolyte/CSH composite films towards rejection of dyes, RSC Advances, vol.5, pp.63429-63438, 2015.

T. Ishigami, K. Amano, A. Fujii, Y. Ohmukai, E. Kamio et al., Fouling reduction of reverse osmosis membrane by surface modification via layer-by-layer assembly, Separation and Purification Technology, pp.1-7, 2012.

D. Rana and T. Matsuura, Surface Modifications for Antifouling Membranes, vol.110, pp.2448-2471, 2010.

C. Ba and J. Economy, Preparation and characterization of a neutrally charged antifouling nanofiltration membrane by coating a layer of sulfonated poly(ether ether ketone) on a positively charged nanofiltration membrane, Journal of Membrane Science, vol.362, pp.192-201, 2010.

Y. Ji, Q. An, Q. Zhao, W. Sun, K. Lee et al., Novel composite nanofiltration membranes containing zwitterions with high permeate flux and improved anti-fouling performance, Journal of Membrane Science, pp.243-253, 2012.

T. Kruk, K. Szczepanowicz, D. Kregiel, L. Szyk-warszy?ska, and P. Warszy?ski, Nanostructured multilayer polyelectrolyte films with silver nanoparticles as antibacterial coatings, Colloids and Surfaces B: Biointerfaces, vol.137, pp.158-166, 2016.

L. Setiawan, R. Wang, K. Li, and A. G. Fane, Fabrication and characterization of forward osmosis hollow fiber membranes with antifouling NF-like selective layer, Journal of Membrane Science, pp.80-88, 2012.

L. Tang, W. Gu, P. Yi, J. L. Bitter, J. Y. Hong et al., Bacterial anti-adhesive properties of polysulfone membranes modified with polyelectrolyte multilayers, Journal of Membrane Science, vol.446, pp.201-211, 2013.

L. Y. Ng, A. W. Mohammad, and C. Y. Ng, A review on nanofiltration membrane fabrication and modification using polyelectrolytes: Effective ways to develop membrane selective barriers and rejection capability, Advances in Colloid and Interface Science, pp.85-107, 2013.

R. Malaisamy and M. L. Bruening, High-Flux Nanofiltration Membranes Prepared by Adsorption of

, Multilayer Polyelectrolyte Membranes on Polymeric Supports, vol.21, pp.10587-10592, 2005.

M. D. Miller and M. L. Bruening, Controlling the Nanofiltration Properties of Multilayer Polyelectrolyte Membranes through Variation of Film Composition, Langmuir : the ACS journal of surfaces and colloids, vol.20, pp.11545-11551, 2004.

L. Ouyang, R. Malaisamy, and M. L. Bruening, Multilayer polyelectrolyte films as nanofiltration membranes for separating monovalent and divalent cations, Journal of Membrane Science, vol.310, pp.76-84, 2008.

W. Shan, P. Bacchin, P. Aimar, M. L. Bruening, and V. V. Tarabara, Polyelectrolyte multilayer films as backflushable nanofiltration membranes with tunable hydrophilicity and surface charge, Journal of Membrane Science, vol.349, pp.268-278, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00570691

B. W. Stanton, J. J. Harris, M. D. Miller, and M. L. Bruening, Ultrathin, Multilayered Polyelectrolyte Films as Nanofiltration Membranes, vol.19, pp.7038-7042, 2003.

S. U. Hong, M. D. Miller, and M. L. Bruening, Removal of Dyes, Sugars, and Amino Acids from NaCl Solutions Using Multilayer Polyelectrolyte Nanofiltration Membranes, Industrial & Engineering Chemistry Research, vol.45, pp.6284-6288, 2006.

W. Jin, A. Toutianoush, and B. Tieke, Use of Polyelectrolyte Layer-by-Layer Assemblies as Nanofiltration and Reverse Osmosis Membranes, Langmuir : the ACS journal of surfaces and colloids, vol.19, pp.2550-2553, 2003.

L. Krasemann and B. Tieke, Selective Ion Transport across Self-Assembled Alternating Multilayers of Cationic and Anionic Polyelectrolytes, Langmuir : the ACS journal of surfaces and colloids, vol.16, pp.287-290, 1999.

N. Peng, N. Widjojo, P. Sukitpaneenit, M. M. Teoh, G. G. Lipscomb et al., Evolution of polymeric hollow fibers as sustainable technologies: Past, present, and future, Progress in Polymer Science, vol.37, pp.1401-1424, 2012.

C. Y. Feng, K. C. Khulbe, T. Matsuura, and A. F. Ismail, Recent progresses in polymeric hollow fiber membrane preparation, characterization and applications, Separation and Purification Technology, vol.111, pp.43-71, 2013.

J. De-grooth, M. Dong, W. M. De-vos, and K. Nijmeijer, Building polyzwitterion-based multilayers for responsive membranes, Langmuir : the ACS journal of surfaces and colloids, vol.30, pp.5152-5161, 2014.

J. De-grooth, B. Haakmeester, C. Wever, J. Potreck, W. M. De-vos et al., Long term physical and chemical stability of polyelectrolyte multilayer membranes, Journal of Membrane Science, vol.489, pp.153-159, 2015.

J. De-grooth, R. Oborný, J. Potreck, K. Nijmeijer, and W. M. De-vos, The role of ionic strength and oddeven effects on the properties of polyelectrolyte multilayer nanofiltration membranes, Journal of Membrane Science, vol.475, pp.311-319, 2015.

J. De-grooth, D. M. Reurink, J. Ploegmakers, W. M. De-vos, and K. Nijmeijer, Charged Micropollutant Removal With Hollow Fiber Nanofiltration Membranes Based On Polycation/Polyzwitterion/Polyanion Multilayers, ACS applied materials & interfaces, vol.6, pp.17009-17017, 2014.

S. Ilyas, J. De-grooth, K. Nijmeijer, and W. M. De-vos, Multifunctional polyelectrolyte multilayers as nanofiltration membranes and as sacrificial layers for easy membrane cleaning, Journal of colloid and interface science, vol.446, pp.386-393, 2015.

B. Su, T. Wang, Z. Wang, X. Gao, and C. Gao, Preparation and performance of dynamic layer-by-layer PDADMAC/PSS nanofiltration membrane, Journal of Membrane Science, pp.324-331, 2012.

L. Ouyang, D. M. Dotzauer, S. R. Hogg, J. Macanás, J. Lahitte et al., Catalytic hollow fiber membranes prepared using layer-by-layer adsorption of polyelectrolytes and metal nanoparticles, Catalysis Today, vol.156, pp.100-106, 2010.

C. Liu, L. Shi, and R. Wang, Enhanced hollow fiber membrane performance via semi-dynamic layer-bylayer polyelectrolyte inner surface deposition for nanofiltration and forward osmosis applications, Reactive and Functional Polymers, vol.86, pp.154-160, 2015.

C. Liu, W. Fang, S. Chou, L. Shi, A. G. Fane et al., Fabrication of layer-by-layer assembled FO hollow fiber membranes and their performances using low concentration draw solutions, Desalination, vol.308, pp.147-153, 2013.

G. Zhang, X. Song, S. Ji, N. Wang, and Z. Liu, Self-assembly of inner skin hollow fiber polyelectrolyte multilayer membranes by a dynamic negative pressure layer-by-layer technique, Journal of Membrane Science, vol.325, pp.109-116, 2008.

D. Menne, J. Kamp, J. E. Wong, and M. Wessling, Precise tuning of salt retention of backwashable polyelectrolyte multilayer hollow fiber nanofiltration membranes, Journal of Membrane Science, vol.499, pp.396-405, 2016.

W. M. De-vos, A. De-keizer, M. A. Stuart, and J. M. Kleijn, Thin polymer films as sacrificial layers for easier cleaning, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.358, pp.6-12, 2010.

S. A. Sukhishvili, S. Granick, and L. , Erasable Polymer Multilayers Formed by Hydrogen-Bonded Sequential Self-Assembly, Macromolecules, vol.35, pp.301-310, 2001.
DOI : 10.1021/ma011346c

R. V. Klitzing, Internal structure of polyelectrolyte multilayer assemblies, Physical Chemistry Chemical Physics, vol.8, pp.5012-5033, 2006.

S. T. Dubas and J. B. Schlenoff, Polyelectrolyte Multilayers Containing a Weak Polyacid: Construction and Deconstruction, Macromolecules, vol.34, pp.3736-3740, 2001.

D. Kovacevic, S. Van-der-burgh, A. De-keizer, and M. A. Stuart, Kinetics of Formation and Dissolution of Weak Polyelectrolyte Multilayers: Role of Salt and Free Polyions, Langmuir : the ACS journal of surfaces and colloids, vol.18, pp.5607-5612, 2002.

J. C. Dijt, M. A. Stuart, and G. J. Fleer, Reflectometry as a tool for adsorption studies, Advances in Colloid and Interface Science, vol.50, pp.79-101, 1994.

J. C. Dijt, M. A. Stuart, J. E. Hofman, and G. J. Fleer, Kinetics of polymer adsorption in stagnation point flow, Colloids and Surfaces, vol.51, 1990.

J. De-grooth, M. Dong, W. M. De-vos, and K. Nijmeijer, Building polyzwitterion-based multilayers for responsive membranes, Langmuir : the ACS journal of surfaces and colloids, vol.30, pp.5152-5161, 2014.

H. Guo, Y. Ma, P. Sun, S. Cui, Z. Qin et al., Self-cleaning and antifouling nanofiltration membranes-superhydrophilic multilayered polyelectrolyte/CSH composite films towards rejection of dyes, RSC Advances, vol.5, pp.63429-63438, 2015.

K. Glinel, C. Déjugnat, M. Prevot, B. Schöler, M. Schönhoff et al., Responsive polyelectrolyte multilayers, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.303, pp.3-13, 2007.

J. A. Jaber and J. B. Schlenoff, Polyelectrolyte Multilayers with Reversible Thermal Responsivity, vol.38, pp.1300-1306, 2005.

J. Kochan, M. Scheidle, J. Van-erkel, M. Bikel, J. Büchs et al., Characterization of antibacterial polyethersulfone membranes using the respiration activity monitoring system (RAMOS), vol.46, pp.5401-5409, 2012.

T. Kruk, K. Szczepanowicz, D. Kregiel, L. Szyk-warszy?ska, and P. Warszy?ski, Nanostructured multilayer polyelectrolyte films with silver nanoparticles as antibacterial coatings, Colloids and Surfaces B: Biointerfaces, vol.137, pp.158-166, 2016.

M. S. Rahaman, H. Therien-aubin, M. Ben-sasson, C. K. Ober, M. Nielsen et al., Control of biofouling on reverse osmosis polyamide membranes modified with biocidal nanoparticles and antifouling polymer brushes, vol.2, pp.1724-1732, 2014.

L. Tang, K. A. Huynh, M. L. Fleming, M. Larronde-larretche, and K. L. Chen, Imparting antimicrobial and anti-adhesive properties to polysulfone membranes through modification with silver nanoparticles and polyelectrolyte multilayers, Journal of colloid and interface science, vol.451, pp.125-133, 2015.

X. Zan and Z. Su, Polyelectrolyte multilayer films containing silver as antibacterial coatings, Thin Solid Films, vol.518, pp.5478-5482, 2010.
DOI : 10.1016/j.tsf.2010.04.022

F. Diagne, R. Malaisamy, V. Boddie, R. D. Holbrook, B. Eribo et al., Polyelectrolyte and silver nanoparticle modification of microfiltration membranes to mitigate organic and bacterial fouling, Environmental science & technology, vol.46, pp.4025-4033, 2012.

F. Zarpelon, D. Galiotto, C. Aguzzoli, L. N. Carli, C. A. Figueroa et al., Removal of coliform bacteria from industrial wastewaters using polyelectrolytes/silver nanoparticles self-assembled thin films, Journal of Environmental Chemical Engineering, vol.4, pp.137-146, 2016.

T. Bae and T. Tak, Preparation of TiO2 self-assembled polymeric nanocomposite membranes and examination of their fouling mitigation effects in a membrane bioreactor system, Journal of Membrane Science, vol.266, pp.1-5, 2005.

R. A. Damodar, S. You, and H. Chou, Study the self cleaning, antibacterial and photocatalytic properties of TiO2 entrapped PVDF membranes, Journal of hazardous materials, vol.172, pp.1321-1328, 2009.

S. H. Kim, S. Kwak, B. Sohn, and T. H. Park, Design of TiO2 nanoparticle self-assembled aromatic polyamide thin-film-composite (TFC) membrane as an approach to solve biofouling problem, Journal of Membrane Science, vol.211, pp.157-165, 2003.

J. Li, Y. Xu, L. Zhu, J. Wang, and C. Du, Fabrication and characterization of a novel TiO2 nanoparticle self-assembly membrane with improved fouling resistance, Journal of Membrane Science, vol.326, pp.659-666, 2009.

E. Celik, H. Park, H. Choi, and H. Choi, Carbon nanotube blended polyethersulfone membranes for fouling control in water treatment, Water research, vol.45, pp.274-282, 2011.

J. Choi, J. Jegal, and W. Kim, Fabrication and characterization of multi-walled carbon nanotubes/polymer blend membranes, Journal of Membrane Science, vol.284, pp.406-415, 2006.

Y. Mo, X. Zhao, and Y. X. Shen, Cation-dependent structural instability of graphene oxide membranes and its effect on membrane separation performance, Desalination, pp.40-46, 2016.

L. Wang, N. Wang, J. Li, J. Li, W. Bian et al., Layer-by-layer self-assembly of polycation/GO nanofiltration membrane with enhanced stability and fouling resistance, Separation and Purification Technology, vol.160, pp.123-131, 2016.

L. Ouyang, D. M. Dotzauer, S. R. Hogg, J. Macanás, J. Lahitte et al., Catalytic hollow fiber membranes prepared using layer-by-layer adsorption of polyelectrolytes and metal nanoparticles, Catalysis Today, vol.156, pp.100-106, 2010.

C. Chu and Z. Su, Facile Synthesis of AuPt Alloy Nanoparticles in Polyelectrolyte Multilayers with Enhanced Catalytic Activity for Reduction of 4-Nitrophenol, Langmuir : the ACS journal of surfaces and colloids, vol.30, pp.15345-15350, 2014.

B. Domènech, M. Muñoz, D. N. Muraviev, and J. Macanás, Polymer-stabilized palladium nanoparticles for catalytic membranes: ad hoc polymer fabrication, Nanoscale Research Letters, vol.6, pp.406-406, 2011.

D. M. Dotzauer, S. Bhattacharjee, Y. Wen, and M. L. Bruening, Nanoparticle-Containing Membranes for the Catalytic Reduction of Nitroaromatic Compounds, Langmuir : the ACS journal of surfaces and colloids, vol.25, pp.1865-1871, 2009.

A. Ostendorf, C. Cramer, G. Decher, and M. Schönhoff, Humidity-Tunable Electronic Conductivity of Polyelectrolyte Multilayers Containing Gold Nanoparticles, vol.119, pp.9543-9549, 2015.

J. M. Garza, N. Jessel, G. Ladam, V. Dupray, S. Muller et al.,

. Lavalle, Polyelectrolyte Multilayers and Degradable Polymer Layers as Multicompartment Films, Langmuir : the ACS journal of surfaces and colloids, vol.21, pp.12372-12377, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00088923

G. E. Luckachan and C. K. Pillai, Biodegradable Polymers-A Review on Recent Trends and Emerging Perspectives, Journal of Polymers and the Environment, vol.19, pp.637-676, 2011.

A. Schneider, C. Vodouhê, L. Richert, G. Francius, E. Le-guen et al., Multifunctional Polyelectrolyte Multilayer Films: Combining Mechanical Resistance, Biodegradability, and Bioactivity, vol.8, pp.139-145, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02086966

J. M. Silva, A. R. Duarte, S. G. Caridade, C. Picart, R. L. Reis et al., Tailored Freestanding Multilayered Membranes Based on Chitosan and Alginate, vol.15, pp.3817-3826, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01226008

Y. Lee, I. Stanish, V. Rastogi, T. Cheng, and A. Singh,

, Organophosphorus Hydrolase in Polymer Encased Multilayer Assemblies, vol.19, pp.1330-1336, 2003.