Positively charged nanofiltration membranes via economically mussel-substance-simulated co-deposition for textile wastewater treatment

[Display omitted] •Co-deposition of catechol and PEI were utilized to obtain novel NF membranes.•Positively charged NF membranes can be economically fabricated.•The novel membrane exhibits excellent rejections toward cationic dye and metal ions.•EtOH activation can greatly enhance the permeance with...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2016-11, Vol.303, p.555-564
Main Authors: Xu, Yan Chao, Wang, Zhen Xing, Cheng, Xi Quan, Xiao, You Chang, Shao, Lu
Format: Article
Language:English
Subjects:
Catechol
Co-deposition
Dyes
Membranes
Nanofiltration
Polyetherimides
Positively charged nanofiltration membrane
Separation
Solvent activation
Textile wastewater treatment
Textiles
Wastewater treatment
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Summary:[Display omitted] •Co-deposition of catechol and PEI were utilized to obtain novel NF membranes.•Positively charged NF membranes can be economically fabricated.•The novel membrane exhibits excellent rejections toward cationic dye and metal ions.•EtOH activation can greatly enhance the permeance with a factor of 1.8–2.4. Herein, a novel positively charged nanofiltration (NF) membrane has been facilely fabricated via a highly efficient one-step mussel-substance-simulated co-deposition of low-cost catechol and branched polyetheylenimine (PEI) onto substrates. The co-deposition behaviour, physicochemical properties and separation performances of resultant membranes can be readily tailored by varying PEI molecular weight. In particular, the catechol/PEI600 co-deposited NF membrane shows good removals toward dyes, common salts and heavy metal ions for textile wastewater treatment. Our membranes exhibit high removal efficiency toward cationic dye and metal ions due to the Donnon effect. In addition, EtOH activation process can greatly enhance the membrane permeance with a factor of 1.8–2.4 without compromising rejection. Especially, the novel membranes show stable long-term separation performance toward MgCl2 removal, and the dye-fouled co-deposited membranes can be facilely regenerated and reused with a simple static immersion operation. The co-deposited membrane can perform well in alcohols solvents, indicating its excellent performance for practically environmentally-friendly usages. The facile strategy disclosed in our study can provide new opportunities to not only nanofiltration membrane modification but also the surface engineering of vast kinds of materials towards energy and environmental applications.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2016.06.024