Gelatin Assisted Cerium-Copper Sulfide Nanoparticles as Efficient Catalysts for the Photocatalytic Degradation of Malachite Green Oxalate Dye Under UV-A Light

Chemical, petroleum, and dyeing industries generate a wide variety of highly toxic organic wastes. The discharge of this wastewater into the river without treatment will spoil the entire aquatic system. The photocatalytic degradation of dyes/toxic chemicals is considered a favorable technology for industrial wastewater treatment. For this purpose, we have prepared an efficient nanocomposite material. The Gelatin assisted Cerium loaded CuS (Ge-Ce-CuS) nanocomposite was successfully synthesized by a simple hydrothermal method and characterized by BET, UV-DRS, and PL measurements. The BET surface area of Ge-Ce-CuS (88.6 m2 g-1) is higher than bare CuS (66.0 m2 g-1). DRS Confirms that the photo-absorption of Ge-Ce-CuS nanocomposite significantly increases from the 570 nm range to the whole visible region. PL measurements confirm that the CuS loading suppresses electron-hole recombination of Ge-Ce-CuS. The photocatalytic activity of Ge-Ce-CuS was investigated for the degradation of malachite green oxalate dye (MGO) in an aqueous solution using UV light. The influence of operational parameters such as the amount of photocatalyst, dye concentration, and initial pH on the photo mineralization of MGO dye has been analyzed and discussed. Slightly basic pH enhances the degradation. The mineralization of MGO dye has been confirmed by COD measurements. The intermediates formed during degradations were analyzed by GC-MS, and a suitable degradation pathway was proposed. The catalyst is found to be reusable. The mechanism of degradation of MGO dye by Ge-Ce-CuS is also proposed. In this study, the Gelatin assisted Cerium loaded CuS (Ge-Ce-CuS) nanocatalyst was successfully synthesized by a simple hydrothermal method and characterized. Ge-Ce-CuS is more effective at degrading MGO dye under UV radiation than CuS, CuO, ZnO, ZnS, and TiO2 (anatase). image