Robust PAAm-TA hydrogel coated PVDF membranes with excellent crude-oil antifouling ability for sustainable emulsion separation

Robust PAAm-TA hydrogel coated PVDF membranes with excellent crude-oil antifouling ability for sustainable emulsion separation

Hydrogel coating was widely studied in the field of oil/water separation due to its underwater superoleophobic performance, which could avoid the blockage of the separation membrane by oil effectively, especially high viscosity crude oil. In this manuscript, a layer of ultra-thin Polyacrylamide-Tann...

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Veröffentlicht in:Journal of membrane science 2023-02, Vol.667, p.121166, Article 121166
Hauptverfasser: Jiang, Yuxie, Xian, Caiyun, Xu, Xuanfei, Zheng, Weiwei, Zhu, Tianxue, Cai, Weilong, Huang, Jianying, Lai, Yuekun
Format: Artikel
Sprache:eng
Schlagworte:
adsorption
Anti-crude-oil-adhesion
Emulsion separation
emulsions
Hydrogel nanocomposite
hydrogels
hydrogen
hydrophilicity
Mechanical stability
microfiltration
oils
PAAm-TA coating
petroleum
tannins
viscosity
water treatment
wettability
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container_end_page
container_issue
container_start_page 121166
container_title Journal of membrane science
container_volume 667
creator Jiang, Yuxie
Xian, Caiyun
Xu, Xuanfei
Zheng, Weiwei
Zhu, Tianxue
Cai, Weilong
Huang, Jianying
Lai, Yuekun
description Hydrogel coating was widely studied in the field of oil/water separation due to its underwater superoleophobic performance, which could avoid the blockage of the separation membrane by oil effectively, especially high viscosity crude oil. In this manuscript, a layer of ultra-thin Polyacrylamide-Tannic (PAAm-TA) hydrogel coating was coated on the surface of PVDF microfiltration membrane by a simple immersion process, which could endow it with superhydrophilic and underwater superoleophobic performance. Due to the outstanding superhydrophilic and ultrathin hydrogel coating, the obtained sample showed an ideal emulsion separation efficiency and flux, 99.47% and 1184.3 L/(m2 h bar) for toluene-in-water emulsion. Additionally, the residual crude oil on the membrane surface can be easily and quickly removed by rinsing with water. Attributed to a variety of chemical and hydrogen bonding and negatively charged groups on the tannic acid molecules, the membranes possess good mechanical stability and electrostatic adsorption properties. The obtained PVDF/PAAm-TA membrane could maintain its special wettability in a wide range of chemical environments, enabling it great potential to be used in complex water treatment. In summary, this study will provide new insights into a new idea and method for the preparation of hydrogel coated porous materials for oil/water separation. [Display omitted] •PAAm-TA hydrogel coated PVDF membrane exhibits excellent crude-oil antifouling ability and underwater superoleophobicity.•The PVDF/PAAm-TA membrane can separate multi-type surfactant-stabilized oil/water emulsions and water-soluble dyes.•The Robust PVDF/PAAm-TA membrane demonstrates excellent mechanical and chemical stability.•The PVDF/PAAm-TA membrane exhibits sustainable emulsion separation ability and resistance stability.
doi_str_mv 10.1016/j.memsci.2022.121166
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source Elsevier ScienceDirect Journals
subjects adsorption
Anti-crude-oil-adhesion
Emulsion separation
emulsions
Hydrogel nanocomposite
hydrogels
hydrogen
hydrophilicity
Mechanical stability
microfiltration
oils
PAAm-TA coating
petroleum
tannins
viscosity
water treatment
wettability
title Robust PAAm-TA hydrogel coated PVDF membranes with excellent crude-oil antifouling ability for sustainable emulsion separation
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