Thin-film nanocomposite forward osmosis membrane with polydopamine @UiO-66-NH2-modified polypropylene support and its antifouling property

Du Chunhui; Hu Jintai; Chen Fen

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Thin-film nanocomposite forward osmosis membrane with polydopamine @UiO-66-NH2-modified polypropylene support and its antifouling property

机译：Thin-film nanocomposite forward osmosis membrane with polydopamine @UiO-66-NH2-modified polypropylene support and its antifouling property

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摘要

Polypropylene (PP) porous flat membrane is ultrathin and has high porosity, which is suitable for the support of forward osmosis (FO) membrane. However, its high hydrophobicity is its Achilles heel. In this study, dopamine and UiO-66-NH2 were co-deposited onto the surface of PP support, and then interfacial polymerization was performed to fabricate a thin-film nanocomposite (TFN) FO membrane. The reaction-generated polydopamine improved the hydrophilicity of PP membrane, and at the same time enhanced the adhering of UiO-66-NH2 to the support. The experimental results indicated that the UiO66-NH2 nanoparticles were anchored evenly on the surface of the support, which improved the water flux of FO membrane from 11.1 LMH (TFC, TFN-0 without UiO-66-NH2) to 20.7 LMH (TFN-0.1, with 0.1 wt UiO-66-NH2) using 1 mol/L NaCl as the draw solution in FO mode. Compared with TFC membrane, TFN-0.1 membrane also exhibited relative lower specific salt flux (similar to 0.252) and structural parameter (similar to 379 pm). When separating sodium alginate foulant, the normalized water flux recovery ratio of TFN-0.1 was remained 0.89, and most of the fouling was reversible, as for TFC membrane the data decreased to 0.76 after 2 cycles of operation. These results suggested that UiO-66-NH 2 modified FO membrane exhibited good permeation and antifouling property.

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来源
《Journal of Applied Polymer Science》 |2022年第32期|共12页
作者
Du Chunhui; Hu Jintai; Chen Fen;
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作者单位

Zhejiang Gongshang Univ;

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原文格式 PDF
正文语种英语
中图分类高分子化合物工业（高聚物工业）;
关键词
antifouling property; forward osmosis; membranes; nanoparticles; surfaces and interfaces; PERFORMANCE; UIO-66-NH2; COMPOSITE; TRANSPORT; REMOVAL; MOFS;

Thin-film nanocomposite forward osmosis membrane with polydopamine @UiO-66-NH2-modified polypropylene support and its antifouling property

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