A facile cross-linking approach to fabricate durable and self-healing superhydrophobic coatings of SiO2-PVA@PDMS on cotton textile

A facile cross-linking approach to fabricate durable and self-healing superhydrophobic coatings of SiO2-PVA@PDMS on cotton textile

[Display omitted] •Multifunctional cotton textiles were simply fabricated via dip-dry coating method.•The coated textiles had magnificent superhydrophobicity with excellent durability.•The coated superhydrophobic textiles did not hold any fluoro-type toxic reagents.•This superhydrophobic textile als...

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Bibliographic Details
Published in:European polymer journal Vol. 134; p. 109836
Main Authors: Jannatun, Nahar, Taraqqi-A-Kamal, A., Rehman, Ratul, Kuker, Joan, Lahiri, Sudip Kumar
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 05-07-2020
Elsevier BV
Subjects:
Abrasion
Contact angle
Cotton
Cross-linking
Crosslinking
Durability
Durable
Fluorine
Hydrophobic surfaces
Hydrophobicity
Immersion coating
Nanoparticles
Nanoporous-SiO2
Oil–water separation
Polydimethylsiloxane
Protective coatings
Sandpaper
Scratching
Self healing materials
Self-healing
Silicon dioxide
Superhydrophobic coatings
Surface energy
Surface stability
Surfactants
Textile design
Textiles
Superhydrophobic coatings
Oil–water separation
Nanoporous-SiO2
Durable
Self-healing
Cross-linking
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Description
Summary:[Display omitted] •Multifunctional cotton textiles were simply fabricated via dip-dry coating method.•The coated textiles had magnificent superhydrophobicity with excellent durability.•The coated superhydrophobic textiles did not hold any fluoro-type toxic reagents.•This superhydrophobic textile also showed excellent oil–water separation ability. Superhydrophobic surfaces with long-lasting stability through simple fabrication procedures have attracted considerable attention. The application of existing superhydrophobic surfaces is limited, considering the use of toxic ingredients and their poor longevity. Herein, we report the novel fabrication of durable, fluorine-free, and self-healing superhydrophobic cotton textiles by utilising boric acid (H3BO3) as a cross-linker to silica nanoparticles and poly (vinyl alcohol) followed by polydimethylsiloxane (PDMS) modification through a simple dip-dry coating technique. Boric acid possessed a noticeable micro/nanoporous structure with silica and poly (vinyl alcohol) via cross-linking on the surface, which showed excellent superhydrophobicity, and PDMS modification on the textile surface created a lower surface energy than unmodified textile. The fabricated surface exhibited a maximum water-contact angle of 156.84°±1.5° with a small rolling angle of 1.8°±0.3°, presenting outstanding superhydrophobicity for cotton textiles. The modified cotton textile surface had excellent durability against mechanical and chemical disturbances. The experimental findings indicated that the fabricated textile had adequate mechanical strength that could withstand sandpaper abrasion for 120 cycles, tape-peeling repetition 60 times, knife scratching for 20 cycles and washing by surfactant solutions for 80 cycles. Additionally, the modified textiles exhibited oil–water separation and self-healing abilities, therefore showing multifunctional properties that have potential in a wide range of cotton textile surface treatments.
ISSN:0014-3057
1873-1945
DOI:10.1016/j.eurpolymj.2020.109836