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    Removal of Emerging Wastewater Organic Contaminants by Polyelectrolyte Multilayer Nanofiltration Membranes with Tailored Selectivity

    Year: 2021

    Journal: ACS ES&T Eng., Volume 1, MAR 12, page 404–414

    Authors: Wang, Yunkun; Zucker, Ines; Boo, Chanhee; Elimelech, Menachem

    Organizations: Korea Institute of Science and TechnologyKorea Institute of Science & Technology (KIST) [2V07988, 2E30510]; National Natural Science Foundation of China (NSFC)National Natural Science Foundation of China (NSFC) [51878389, 22076101]; U.S. National Science Foundation through the Engineering Research Center for Nanotechnology-Enabled Water TreatmentNational Science Foundation (NSF) [EEC-1449500]

    Keywords: Emerging organic contaminant; Layer-by-Layer; Nanofiltration; Scaling; Selectivity

    Emerging organic contaminants (EOCs) discharged from wastewater effluents into drinking water resources are of growing concern for human health and the environment. In this study, we demonstrate the fabrication and application of polyelectrolyte multilayer (PEM) nanofiltration (NF) membranes with tailored selectivity for effective removal of EOCs from saline wastewaters. The PEM NF membranes were prepared via layer-by-layer (LbL) assembly of a cationic polymer, i.e., poly(diallyl dimethylammonium chloride), and anionic polymer, i.e., poly(sodium styrenesulfonate). Extensive surface characterization verifies that the fabricated PEM membranes have different pore sizes and surface charge properties depending on the LbL deposition cycle. We evaluated the performance of the PEM NF membranes for the rejection of different salts as well as the retention of representative EOCs, including perfluoroalkyl substances (perfluorooctanoic acid and perfluorooctanesulfonic acid) and antibiotics (amoxicillin trihydrate and tetracycline hydrochloride). Importantly, the PEM NF membrane coated with four bilayers showed as high as 90% EOC retention, comparable to the widely used commercial NF270 membrane, while allowing high passage of salt, including scale-forming divalent cations (<20% rejections of NaCl and CaCl2). This tailored selectivity of the four-bilayer PEM membrane enables high water flux and reduced inorganic (gypsum) scaling potential compared to the NF270 membrane during treatment of EOC-contaminated wastewaters.
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