Litcius/Paper detail

Development of self-cleaning superhydrophobic cotton fabric through silica/PDMS composite coating

Rajaram S. Sutar, Bairu Shi, Susmita S. Kanchankoti, Sagar S. Ingole, Wahida S Jamadar, Alsaba J Sayyad, Priyanka B Khot, Kishor Kumar Sadasivuni, Sanjay S. Latthe, Shanhu Liu, Appasaheb K. Bhosale

2023Surface Topography Metrology and Properties29 citationsDOIOpen Access PDF

Abstract

Abstract The lotus effect informs that self-cleaning superhydrophobic surfaces can be obtained by creating rough surface structures and modifying them with chemicals that have low surface energy. Herein, the composite of hydrophobic silica nanoparticles (SNPs) and polydimethylsiloxane (PDMS) was deposited on cotton fabric by multiple dip cycles. At optimal condition, the agglomerated SNPs in PDMS produces a hierarchical rough surface, as a result the coated cotton fabric has revealed a water contact angle (WCA) of 158.41 ± 1.58° and 4° of sliding angle. Due to negligible water adhesion to a superhydrophobic surface, coated cotton fabric reveals excellent self-cleaning behavior, which was tested by dust particles, muddy water and tea droplets. Furthermore, coated cotton fabric sustains superhydrophobicity over the mechanical robustness tests including adhesive tape peeling test, sandpaper abrasion test, and ultrasonication. Therefore, such an approach may be applicable in textile industries for self-cleaning purposes.

Topics & Concepts

SandpaperMaterials scienceContact angleComposite materialPolydimethylsiloxaneLotus effectSuperhydrophobic coatingComposite numberAbrasion (mechanical)Surface energyCoatingAdhesiveTextileLayer (electronics)ChemistryOrganic chemistryRaw materialSurface Modification and SuperhydrophobicityAdvanced Sensor and Energy Harvesting MaterialsAerogels and thermal insulation
Development of self-cleaning superhydrophobic cotton fabric through silica/PDMS composite coating | Litcius