Immobilization of Ag-NPs onto cellulose-containing fabrics using O2-plasma

Abstract

Silver nanocomposites (Ag-NPs/PVP) were synthesized through the reduction of Ag+ using Ethylene glycol (EG) and poly(N-vinylpyrrolidone) (PVP) as a protective agent in an alkaline medium. Characterization involved UV–Vis spectrum, and TEM image, confirming the well spread of the nanoparticles with a particle size of range 5–10 nm. Stability, assessed after three months, revealed a zeta potentialof −17 mV, identicating no agglomeration. . PVP role in decreasing the nanoparticle size was studied, attributed to the protective layer preventing aggregation. . The study enhanced the antibacterial activity of various cellulosic fabrics (cotton, linen, and viscose) by activating their surfaces through O2 plasma pretreatment at atmospheric pressure. Activation immobilized the fabric matrix by the extracting radicals fforming functional groups(C = O, –O–C = O, –COH, –COOH, and CH2–OH). Viscose demonstrated the highest effect. FTIR confirmed the formation of polar groups on the fabric surface. Activated cellulosic fabric was treated with Ag-NPs/PVP colloid solution and antibacterial activity was assessed against Staphylococcus aureus (S. aureus) andEscherichia coli (E. coli). Parameters such as: plasma exposure time, Ag-NPs/PVP concentration, and the pretreatment bath temperature were studied.SEM images and EDX spectra verified the presence of nitrogen and silver elements on the treated substrates surface .