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13.04.2020 | Original Research

Mussel-inspired fabrication of superhydrophobic cotton fabric for oil/water separation and visible light photocatalytic

verfasst von: Deshan Cheng, Yali Zhang, Xue Bai, Yuhang Liu, Zhongmin Deng, Jihong Wu, Shuguang Bi, Jianhua Ran, Guangming Cai, Xin Wang

Erschienen in: Cellulose | Ausgabe 9/2020

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Abstract

Flexible multiple functional textiles for oil/water separation and photodegradation are highly demanded in highly effective and environmentally friendly wastewater purification. In this work, β-FeOOH nanorods were in situ hydrothermally grown on polydopamine (PDA)-templated cotton fabric (CF) followed by decoration of 1-Dodecanethiol (DDT) on the surface for highly efficient oil/water separation and visible-light-driven photodegradation of dyes. The morphology, structure and wettability of the as-prepared fabrics were characterized and the oil/water separation together with photocatalysis of MB were investigated. The results showed that β-FeOOH nanorods were successfully grown on the PDA-templated cotton fabrics with durable hydrophobicity and lipophilicity. The as-prepared fabrics were demonstrated in oil/water separation of different oil with high separation rates, and the mechanism was proposed. The fabrics also showed excellent visible-light-driven photocatalytic performance in degrading methylene blue (MB) solution with stability and reliability, and the photocatalysis mechanism was contributed. This work provides insights on developing multiple functional textiles by combining photocatalysis with special wettability.

Vorheriger Artikel Multifunctional sucrose acid as a ‘green’ crosslinker for wrinkle-free cotton fabrics

Nächster Artikel Specimen preparation optimization for size and morphology characterization of nanocellulose by TEM

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Titel: Mussel-inspired fabrication of superhydrophobic cotton fabric for oil/water separation and visible light photocatalytic
verfasst von: Deshan Cheng
Yali Zhang
Xue Bai
Yuhang Liu
Zhongmin Deng
Jihong Wu
Shuguang Bi
Jianhua Ran
Guangming Cai
Xin Wang
Publikationsdatum: 13.04.2020
Verlag: Springer Netherlands
Erschienen in: Cellulose / Ausgabe 9/2020
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-020-03149-y

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