Water-Mediated In Situ Fabrication of CuI Nanoparticles on Flexible Cotton Fabrics as a Sustainable and Skin-Compatible Coating with Broad-Spectrum Antimicrobial Efficacy

Abstract: Infectious pathogens, such as SARS-CoV-2, can remain viable on common fabric surfaces for days, posing a significant risk of fomite transmission. Antimicrobial coatings are a widely employed approach for pathogen eradication upon direct contact. However, fabricating such coatings on fabric substrates mostly necessitates toxic organic solvents and complex equipment/ procedures. Most coatings also require a long contact time for complete disinfection, which may compromise their usefulness in mitigating the sprea… Show more

“…These films are used for flexible electronics in flexible photovoltaics or sensors, fabricating membranes, e.g., to filter water from dust, salt, or heavy metals, or anticounterfeiting materials. , The macroscopic properties required for these applications are inherently determined by the hybrid materials’ morphologies; for example, they influence surface energy. The surface energy directly affects the usability of the porous thin films because it influences the surface’s water adhesion and solvent imbibition properties of porous films. , Depending on the material’s topology, the morphology changes during a treatment. , Both the deposition of colloids and the annealing process above a critical temperature alter the morphology of a material . Therefore, incorporating colloids into the network of porous cellulose nanofibrils (CNF) is suitable for modifying water adhesion .…”

Poly(sobrerol methacrylate) Colloidal Inks Sprayed onto Cellulose Nanofibril Thin Films for Anticounterfeiting Applications

“…These films are used for flexible electronics in flexible photovoltaics or sensors, fabricating membranes, e.g., to filter water from dust, salt, or heavy metals, or anticounterfeiting materials. , The macroscopic properties required for these applications are inherently determined by the hybrid materials’ morphologies; for example, they influence surface energy. The surface energy directly affects the usability of the porous thin films because it influences the surface’s water adhesion and solvent imbibition properties of porous films. , Depending on the material’s topology, the morphology changes during a treatment. , Both the deposition of colloids and the annealing process above a critical temperature alter the morphology of a material . Therefore, incorporating colloids into the network of porous cellulose nanofibrils (CNF) is suitable for modifying water adhesion .…”

Poly(sobrerol methacrylate) Colloidal Inks Sprayed onto Cellulose Nanofibril Thin Films for Anticounterfeiting Applications