Immobilization of silver and strontium oxide aluminate nanoparticles integrated into plasma-activated cotton fabric: luminescence, superhydrophobicity, and antimicrobial activity

Smart textiles with a multifunctional surface, such as with photoluminescence, antimicrobial, and superhydrophobic properties, are highly desirable. Silver nanoparticles (Ag NPs) were prepared and immobilized onto a cotton surface using a facile pad-dry-curing technique to introduce long-lasting antimicrobial properties. The morphology of the silver immobilized cotton fibres was explored using scanning electron microscopic images and energy-dispersive X-ray spectra. The morphology of the formed Ag NPs was determined using a transmission electron microscope. Ag NPs exhibited uniform spreading and a high deposition density with a particle diameter in the range 25-55 nm. Both photoluminescence and superhydrophobic properties were explored by studying the cotton samples treated with hexadecyltrimethoxysilane nanocomposite containing lanthanide-doped strontium oxide aluminate NPs. Ultraviolet-visible light absorption, phosphorescence, and lifetime spectra were measured. The produced transparent superhydrophobic and photoluminescent film showed two absorbance bands at 273 and 367 nm and emission bands at 415 and 437 nm, as recognized by both absorption and emission spectra. Excellent antibacterial activities towards E. coli and S. aureus were monitored for the coated samples. Both fastness and colorimetric properties of Ag NPs-coated fabrics were explored.

Automated summary

Smart textiles with multifunctional surface properties, including photoluminescence, antimicrobial, and superhydrophobic properties, were desired. Silver nanoparticles were immobilized onto a cotton surface to introduce antimicrobial properties. The morphology of the silver immobilized cotton fibers and Ag NPs were explored, along with the photoluminescence and superhydrophobic properties of the treated cotton samples.