Nanovertenergie: Bactericidal polymer nanocomposite beads for carcinogenic dye removal from aqueous solution

This project stresses the current problems in the industrial revolution and the increasing demand for new products due to the population explosion. In the race for industrialization, the production unlimited byproducts and discharge of harmful gases in the atmosphere, discharging harmful sewage into fresh wa-ter resources and dumping of harmful waste in the soil. Polymer nanocomposites enable an eco-friendly environment that is dignified to be far for efficient than the current strategies, and likewise, anti-bacterial, and water treatment holds the future.Here, the design and development of polymer nanocomposite based on polyvinyl alcohol cross-linked with melamine-formaldehyde doped with Cu nanoparticles. The electrostatic interaction between poly-mer matrixes increases the chemical stability after doping Cu nanoparticles. The chemical stability order of polymer nanocomposites was confirmed by contact angle (58-90 o ) in water > NaOH> HCl. The poly-mer nanocomposite films were analyzed for the Congo red (CR) dye adsorption using Batch adsorption methods. Three parameters were used to determine dye adsorption by contact time, pH, and the dye concentration of CR dye. The dye adsorption analysis reveals that CR dye adsorption increases in polymer nanocomposite films from (C1-C5). CR dye adsorption increase with respect to contact upto 80% mg L -1, but the adsorption percentage decreases (68-13%) as the pH (4-10) increases values. The anti-bacterial results reveal that the inhibition against B. subtilis 736 and S. aureus is 40 mm and 35 mm, respectively, after the encapsulation of Cu nanoparticles. The present study launched a positive effort to design and de-velop an eco-friendly, very efficient, and safe synthesis of nanomaterials with unparalleled properties like waste water treatment discharge from textile industries for cleaner production, bactericidal, and packing industries.(c) 2023 Elsevier B.V. All rights reserved.