A facile and versatile route for preparation AgNp nanocomposite thin films via thiol-acrylate photopolymerization: Determination of antibacterial activity

Abstract

Size, shape and distribution-controlled silver nanoparticles (AgNps) were produced by a rapid and efficient method either in solvent or in polymer matrix by which the silver ion is reduced and a polymer matrix is simultaneously generated in the presence of various photoinitiators by the means of UV light.2-Mercaptothioxanthone (TX-SH), Thioxanthone (TX) and TX + Thiophenol were used as photoinitiator systems for the polymerization of PEGMEA/PEGDA monomer mixture in the presence of AgNO3 salt. As a summary of results, it is important to note that the size and distribution of Nps depend on the photoreducing species. Therefore TX-SH, due to thiol functionality in its structure, helped production of he 7–40 nm size and distribution-controlled AgNps in polymer matrix. In-situ prepared AgNps/Polymer nanocoatings exhibited a reflected silver mirror view as a result of aggregation depending on the irradiation time. Antibacterial efficiency and susceptibility of AgNps containing nanocomposite films were examined for t E. coli, P. aeruginosa, S. aureus and B. cereus. Obtained antimicrobial results show that photochemically prepared nanocomposites considerably increase the antimicrobial activity on Gram negative bacteria compared to Gram positive bacteria.