Electrospun cellulose nanofibers membranes with photothermal/pH-induced switchable wettability for oil-water separation and elimination of bacteria

Considering the substantial annual global discharge of oily wastewater, there exists a crucial requirement to develop smart membranes that possess environmentally sustainable attributes, tunable wettability, and potent antibacterial properties, enabling efficient and controlled separation of oil/wat...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 518; p. 164394
Main Authors Fang, Xubo, Du, Yuhan, Nawaz, Haq, Li, Xin, Yan, Ning, Zheng, Wenqiu, Li, Deqiang, Xu, Feng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.08.2025
Subjects
Antibacterial
Electrospun cellulose nanofibers membranes
Oil-water separation
Photothermal/pH-responsive
Switchable wettability
Oil-water separation
Electrospun cellulose nanofibers membranes
Antibacterial
Photothermal/pH-responsive
Switchable wettability
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Abstract Considering the substantial annual global discharge of oily wastewater, there exists a crucial requirement to develop smart membranes that possess environmentally sustainable attributes, tunable wettability, and potent antibacterial properties, enabling efficient and controlled separation of oil/water mixtures. Here, a photothermal/pH-responsive electrospun cellulose nanofibers (ECF-P-Fe3O4-N) membrane endowed with wettability modulation and bacterial elimination capabilities was successfully prepared. The advancement in the fabrication method stemmed from the ingenious integration of three key strategies: the interpenetrating network formation between cellulose and the thermosensitive polymer, the co-precipitation embedding of photothermal medium (Fe3O4 NPs), and the chemical grafting of aminosilane. The resultant ECF-P-Fe3O4-N membrane exhibited fast and reversible wettability transitions between high hydrophilicity (under acid or high-temperature stimulation) and hydrophobicity (under alkali or low-temperature stimulation), achieving on-demand separation of diverse immiscible oil-water mixtures and surfactant-stabilized emulsions. The maximum separation flux for oil-water emulsions attained a value of 225.6 L m−2 h−1, accompanied by a separation efficiency surpassing 98.53 %. It also possessed strong elimination of bacteria, satisfying for the long-lasting contact usage. This work holds significant implications in designing smart membranes for remotely controlling the oil-water separation. The photothermal/pH-responsive electrospun cellulose nanofibers membranes, capable of wettability regulation and bacterial elimination, were successfully fabricated through the integration of three strategies: the formation of interpenetrating networks, the co-precipitation embedding of Fe3O4 NPs, and the chemical grafting of aminosilane. The resultant ECF-P-Fe3O4-N membrane exhibited rapid and reversible wettability transitions, thereby enabling high-efficiency separation of oil-water mixtures and emulsions. [Display omitted] •A smart electrospun cellulose nanofibers membrane was successfully prepared.•Reversible transitions of hydro-phil/phobia facilitate on-demand oil-water separation.•The membrane achieves a maximum flux of 225.6 L m−2 h−1 with >98.53 % efficiency.•It is highly antibacterial and suitable for prolonged contact use.
AbstractList Considering the substantial annual global discharge of oily wastewater, there exists a crucial requirement to develop smart membranes that possess environmentally sustainable attributes, tunable wettability, and potent antibacterial properties, enabling efficient and controlled separation of oil/water mixtures. Here, a photothermal/pH-responsive electrospun cellulose nanofibers (ECF-P-Fe3O4-N) membrane endowed with wettability modulation and bacterial elimination capabilities was successfully prepared. The advancement in the fabrication method stemmed from the ingenious integration of three key strategies: the interpenetrating network formation between cellulose and the thermosensitive polymer, the co-precipitation embedding of photothermal medium (Fe3O4 NPs), and the chemical grafting of aminosilane. The resultant ECF-P-Fe3O4-N membrane exhibited fast and reversible wettability transitions between high hydrophilicity (under acid or high-temperature stimulation) and hydrophobicity (under alkali or low-temperature stimulation), achieving on-demand separation of diverse immiscible oil-water mixtures and surfactant-stabilized emulsions. The maximum separation flux for oil-water emulsions attained a value of 225.6 L m−2 h−1, accompanied by a separation efficiency surpassing 98.53 %. It also possessed strong elimination of bacteria, satisfying for the long-lasting contact usage. This work holds significant implications in designing smart membranes for remotely controlling the oil-water separation. The photothermal/pH-responsive electrospun cellulose nanofibers membranes, capable of wettability regulation and bacterial elimination, were successfully fabricated through the integration of three strategies: the formation of interpenetrating networks, the co-precipitation embedding of Fe3O4 NPs, and the chemical grafting of aminosilane. The resultant ECF-P-Fe3O4-N membrane exhibited rapid and reversible wettability transitions, thereby enabling high-efficiency separation of oil-water mixtures and emulsions. [Display omitted] •A smart electrospun cellulose nanofibers membrane was successfully prepared.•Reversible transitions of hydro-phil/phobia facilitate on-demand oil-water separation.•The membrane achieves a maximum flux of 225.6 L m−2 h−1 with >98.53 % efficiency.•It is highly antibacterial and suitable for prolonged contact use.
ArticleNumber 164394
Author Zheng, Wenqiu
Xu, Feng
Du, Yuhan
Nawaz, Haq
Li, Deqiang
Yan, Ning
Fang, Xubo
Li, Xin
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Keywords Oil-water separation
Electrospun cellulose nanofibers membranes
Antibacterial
Photothermal/pH-responsive
Switchable wettability
Language English
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Snippet Considering the substantial annual global discharge of oily wastewater, there exists a crucial requirement to develop smart membranes that possess...
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elsevier
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StartPage 164394
SubjectTerms Antibacterial
Electrospun cellulose nanofibers membranes
Oil-water separation
Photothermal/pH-responsive
Switchable wettability
Title Electrospun cellulose nanofibers membranes with photothermal/pH-induced switchable wettability for oil-water separation and elimination of bacteria
URI https://dx.doi.org/10.1016/j.cej.2025.164394
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