Preparation of novel high permeability and antifouling polysulfone-vanillin membrane

Preparation of novel high permeability and antifouling polysulfone-vanillin membrane

A novel high-performance nanofiltration membrane was fabricated by a simple and scalable route involving in situ cross-linking of hydrophilic, cheap, and environmentally friendly vanillin as antifouling agent with polysulfone (PSf) for salt rejection performance. Vanillin acts as a porogen, which in...

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Bibliographic Details
Published in:Desalination Vol. 496; p. 114759
Main Authors: Yadav, Sudesh, Ibrar, Ibrar, Altaee, Ali, Déon, Sébastien, Zhou, John
Format: Journal Article
Language:English
Published: Elsevier B.V 15-12-2020
Elsevier
Subjects:
Antifouling membrane
Chemical Sciences
Desalination
Nanofiltration membrane
PSf-vanillin membrane
Purification
Nanofiltration membrane
PSf-vanillin membrane
Purification
Antifouling membrane
Desalination
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Summary:A novel high-performance nanofiltration membrane was fabricated by a simple and scalable route involving in situ cross-linking of hydrophilic, cheap, and environmentally friendly vanillin as antifouling agent with polysulfone (PSf) for salt rejection performance. Vanillin acts as a porogen, which induces a negative surface charge on the membrane surface due to the presence of polar functional groups like alcohol and aldehyde. The surface properties, including charge, morphology, and hydrophilicity, were investigated in detail using analytical instruments. The nanofiltration performance of the fabricated PSf-vanillin membranes was dependent on the percentage of vanillin added in the casting solution. The PSf-vanillin membrane antifouling tests were evaluated using 200 mg/L bovine serum albumin (BSA), and results showed 99% rejection with 88.55% flux recovery ratio. Performance studies were compared with commercially available TRISEP® UA60 nanofiltration membrane. PSf-vanillin membrane M2 showed higher MgSO4 (87.49%), NaCl (25.78%) rejection with excellent antifouling properties compared to commercial UA60 membrane. It is believed that charged membranes are the building blocks for the development of future generation desalination membranes possessing high permeability and selectivity index. The developed membranes have potential niche application in the pre-treatment of feed solution. [Display omitted] •PSf-vanillin membrane was fabricated with different vanillin concentrations.•Optimized PSf-vanillin membrane showed higher surface charge and water permeability.•PSf-vanillin membrane demonstrated improves antifouling properties.•Antifouling studies of PSf-vanillin membrane were compared with commercial TRISEP® UA60 membrane.•PSf-vanillin membrane showed better antifouling properties than commercial TRISEP® UA60 membrane.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2020.114759