Hydrophilic and superoleophobic GO-TiO2 PVDF/PEI membrane with antifouling properties for efficient oil-water separation

Hydrophilic and superoleophobic GO-TiO2 PVDF/PEI membrane with antifouling properties for efficient oil-water separation

The separation of oil in complex microemulsions has challenges with significant implications, particularly in industries such as food processing, textiles, paint, pharmaceuticals and refineries. Conventional methods often fail to achieve stable and efficient separation, necessitating the use of adva...

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Bibliographic Details
Main Authors: Mitushi Agrawal, Triparna Chakraborty, Dharmveer Yadav, Sumit Saxena, Shobha Shukla
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Next Materials
Subjects:
Ultrafiltration PVDF/PEI membrane
Graphene oxide
Titanium dioxide
Water treatment
Emulsion separation
Oil-water emulsion
Online Access:http://www.sciencedirect.com/science/article/pii/S2949822825001364
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Summary:The separation of oil in complex microemulsions has challenges with significant implications, particularly in industries such as food processing, textiles, paint, pharmaceuticals and refineries. Conventional methods often fail to achieve stable and efficient separation, necessitating the use of advanced membrane technologies. This study investigates the integration of graphene oxide (GO) and titanium dioxide (TiO2) nanoparticles into a poly(vinylidene fluoride)/poly(ethyleneimine) (PV/PEI) membrane to enhance the separation of micro-emulsified oil from water. The addition of GO/TiO2 (4 %) imparts greater smoothness to the membrane surface, which is otherwise lacking in the pristine PV/PEI membrane; it also enhances hydrophilicity, thereby improving its antifouling properties. Incorporation of GO/TiO2 enhances the pure water permeability of the membrane up to 2122.4 L/m2.h.bar. The results demonstrate the potential of GO-TiO2 incorporated PV/PEI membrane as a super-oleophobic material with an underwater contact angle of 150° ± 3°. The mixed-matrix membranes exhibit a three-fold increase in oil-water separation compared to the pristine membranes. The hydrophilic nature and high surface energy of the composite make it effective in separating stable micro-emulsified oil from water, contributing to environmental sustainability and technological advancements in various industries. Moreover, the membrane’s cost-effectiveness and scalability make it suitable for large-scale industrial applications, enhancing its practical viability.
ISSN:2949-8228

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