High-Performance Thin-Film nanocomposite forward osmosis membranes modified with Poly(dopamine) coated UiO66-(COOH)2

•Surface functionalization of UiO-66 with polydopamine (UiO-PDA).•Thin film nanocomposite (TFN) forward osmosis (FO) membranes were fabricated by incorporating UiO-PDA.•UiO-PDA as a hydrophilic nanomaterial enhanced the separation performance of TFN-FO membranes.•The UiO-PDA modified TFN membrane ex...

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Published in:Separation and purification technology 2021-12, Vol.277, p.119438, Article 119438
Main Authors: Eghbalazar, Tala, Shakeri, Alireza
Format: Article
Language:English
Subjects:
Antifouling
Forward osmosis
Nanofiller
PA active layer
Thin film nanocomposite membranes
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description •Surface functionalization of UiO-66 with polydopamine (UiO-PDA).•Thin film nanocomposite (TFN) forward osmosis (FO) membranes were fabricated by incorporating UiO-PDA.•UiO-PDA as a hydrophilic nanomaterial enhanced the separation performance of TFN-FO membranes.•The UiO-PDA modified TFN membrane exhibited better anti-fouling performance and Cu+2 ions rejection in comparison with bare TFC one. In this study, a new family of thin-film nanocomposite forward osmosis (TFN-FO) membranes was synthesized by embedding polydopamine (PDA) coated UiO-66-(COOH)2 (UiO-PDA) nanofiller in polyamide (PA) rejection layer via interfacial polymerization (IP). The PDA coating assisted the UiO dispersion in MPD/water media, resulting in better chemical miscibility between the UiO-PDA and PA matrix. The impact of the UiO-PDA incorporation on the physicochemical properties (surface chemical composition, hydrophilicity, morphology, and roughness) of the TFN membranes are systematically examined via different characterization techniques. Besides, the effect of UiO-PDA concentration on the overall performances (FO water flux, reverse salt flux, antifouling tendency) of the obtained UiO-PDA modified TFN-FO membranes were investigated in a cross-flow FO system. Compared with the pristine thin film composite (TFC) membrane, the modified TFN membranes presented higher selectivity, water flux, and anti-fouling tendency. Finally, the TFN-UC.2 (modified with 0.03 wt% UiO-PDA) membrane exhibited greater Cu2+ ions removal in FO mode (feed solution in contact with PA active layer) than the control TFC membrane, arising from their improved PA rejection layer characteristics.
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In this study, a new family of thin-film nanocomposite forward osmosis (TFN-FO) membranes was synthesized by embedding polydopamine (PDA) coated UiO-66-(COOH)2 (UiO-PDA) nanofiller in polyamide (PA) rejection layer via interfacial polymerization (IP). The PDA coating assisted the UiO dispersion in MPD/water media, resulting in better chemical miscibility between the UiO-PDA and PA matrix. The impact of the UiO-PDA incorporation on the physicochemical properties (surface chemical composition, hydrophilicity, morphology, and roughness) of the TFN membranes are systematically examined via different characterization techniques. Besides, the effect of UiO-PDA concentration on the overall performances (FO water flux, reverse salt flux, antifouling tendency) of the obtained UiO-PDA modified TFN-FO membranes were investigated in a cross-flow FO system. Compared with the pristine thin film composite (TFC) membrane, the modified TFN membranes presented higher selectivity, water flux, and anti-fouling tendency. 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In this study, a new family of thin-film nanocomposite forward osmosis (TFN-FO) membranes was synthesized by embedding polydopamine (PDA) coated UiO-66-(COOH)2 (UiO-PDA) nanofiller in polyamide (PA) rejection layer via interfacial polymerization (IP). The PDA coating assisted the UiO dispersion in MPD/water media, resulting in better chemical miscibility between the UiO-PDA and PA matrix. The impact of the UiO-PDA incorporation on the physicochemical properties (surface chemical composition, hydrophilicity, morphology, and roughness) of the TFN membranes are systematically examined via different characterization techniques. Besides, the effect of UiO-PDA concentration on the overall performances (FO water flux, reverse salt flux, antifouling tendency) of the obtained UiO-PDA modified TFN-FO membranes were investigated in a cross-flow FO system. Compared with the pristine thin film composite (TFC) membrane, the modified TFN membranes presented higher selectivity, water flux, and anti-fouling tendency. 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Compared with the pristine thin film composite (TFC) membrane, the modified TFN membranes presented higher selectivity, water flux, and anti-fouling tendency. Finally, the TFN-UC.2 (modified with 0.03 wt% UiO-PDA) membrane exhibited greater Cu2+ ions removal in FO mode (feed solution in contact with PA active layer) than the control TFC membrane, arising from their improved PA rejection layer characteristics.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.seppur.2021.119438</doi></addata></record>
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subjects Antifouling
Forward osmosis
Nanofiller
PA active layer
Thin film nanocomposite membranes
title High-Performance Thin-Film nanocomposite forward osmosis membranes modified with Poly(dopamine) coated UiO66-(COOH)2
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