Abstract
Organic dyes such as methyl orange (MO) and methylene blue (MB) are widely used in different industries and have become one of the leading emerging water contaminants. The purpose of the current research is to develop new polymer nanocomposite filters for the effective elimination of the dyes, which are non-biodegradable and not efficiently removed by traditional treatment methods. New padded and covered filters were produced applying polystyrene-acrylic/ZnO nanocomposite on the polyester surface by blade coating and one-bath pad methods. Principal results determined by SEM analysis confirm that functionalised layer can create unprecedented function of filter textile material depending on the way of treatment. Due to the modification, the surface area increased from 5.9 for untreated polyester to 85.2 (padded), 44.6 (covered) m2/g. The measured pore size of produced filters is around 3.4 nm, which corresponds to the mesoporous structure. Our study reported effective filters with the rate of MB and MO removal efficiencies up to 60%. Moreover, a colourless reduced form of MB—leuco-methylene blue (LMB) could be created. The functionalised layer of the developed filters through hydrogen bonding between the –OH groups of styrene-acrylic molecules and the –N(CH3)2 groups on LMB can stabilise LMB.
Highlights
Organic dyes such as methyl orange (MO) and methylene blue (MB) are widely used in different industries and have become one of the leading emerging water contaminants
Han and Bai immobilised different layers of titanium dioxide onto the surface of polypropylene fabric. They confirmed that MO dye solution degradation under UV and visible lights could be greatly improved with one layer of titanium dioxide coating
Different surface treatments of the polyester led to different types of etching due to chemical modification
Summary
Organic dyes such as methyl orange (MO) and methylene blue (MB) are widely used in different industries and have become one of the leading emerging water contaminants. The purpose of the current research is to develop new polymer nanocomposite filters for the effective elimination of the dyes, which are non-biodegradable and not efficiently removed by traditional treatment methods. The growing concentration of dye pollutants in water is hazardous It causes significant environmental problems by reducing the photosynthetic activity and oxygen enrichment of aquatic organisms by decreasing light transmittance[1]. Han and Bai immobilised different layers of titanium dioxide onto the surface of polypropylene fabric They confirmed that MO dye solution degradation under UV and visible lights could be greatly improved with one layer of titanium dioxide coating. Such fabrics can be used for the photocatalytic oxidation of phenol from w ater[14]
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