Creating an interconnected PVA nanofibrous membrane on cotton fabrics by dip-coating of PDMS–TMS for versatile protection without compromising comfort

Performance textiles with versatile protective surface and well-preserved comfort are highly demanded but hard to achieve due to the challenge in developing functionalized surface without affecting the porous structure of textiles. Incorporation of nanofibrous materials into textiles has shown its p...

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Bibliographic Details
Published in:Cellulose (London) 2019-09, Vol.26 (13-14), p.8179-8190
Main Authors: Jahan, Israt, Moiz, Arsheen, Wang, Xin
Format: Article
Language:English
Subjects:
Bioorganic Chemistry
Ceramics
Chemistry
Chemistry and Materials Science
Comfort
Composites
Contact angle
Cotton
Cotton fabrics
Crosslinking
Dip coatings
Fabrics
Glass
Immersion coating
Liquids
Nanocomposites
Natural Materials
Organic Chemistry
Original Research
Permeability
Physical Chemistry
Polydimethylsiloxane
Polymer Sciences
Protective coatings
Silicon dioxide
Silicone resins
Substrates
Sustainable Development
Textiles
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Summary:Performance textiles with versatile protective surface and well-preserved comfort are highly demanded but hard to achieve due to the challenge in developing functionalized surface without affecting the porous structure of textiles. Incorporation of nanofibrous materials into textiles has shown its potential but a combination mechanism between the textile substrate and nanocomponents is needed to balance the protection and comfort with durability. This research aims to introduce the binding mechanism to nanofibrous coated textiles through a finishing process. We developed nanocomposites of a surface functionalized nanofibrous membrane on cotton fabrics by applying a polydimethylsiloxane–trimethylated silica (PDMS–TMS) dip-coating as the solution. The as-fabricated nanofibrous membrane enhanced cotton fabric was characterized by SEM and FTIR spectroscopy, and its protection against water, aqueous liquids and chemicals was implemented to test the versatile protection. Besides, the air permeability and moisture management properties of the coated fabrics were tested to confirm the comfort of the coated fabrics. The surface of cotton fabrics was changed from hydrophilic to hydrophobic with a water contact angle of 135°, due to the crosslinking and combination between PDMS–TMS and PVA nanofibrous membrane. It was also found that the combination of PVA nanofibrous membrane with PDMS–TMS coating demonstrated protection against water, liquids, and chemicals. The air permeability of cotton fabrics was largely maintained after coating due to the nanoporous structure of the PVA nanofibrous membrane. The nanocomposites with the surface-functionalized nanofibrous surface as protective layers on textiles have a big potential in developing highly versatile protective textiles with well-preserved comfort.
ISSN:0969-0239
1572-882X
DOI:10.1007/s10570-019-02667-8