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Abstract
In the present study, TiO2 NPs (particle size: 25–35 nm) were biosynthesized from the Mangrove leaf extract. These nanoparticles were used to modify chitosan, and Chitosan@TiO2 biohybrid nanomaterial was synthesized and characterized using FTIR, XRD, BET, and, EDX-FE-SEM analyses. The adsorption ability of Chitosan@TiO2 nanomaterial has been investigated for Methylene blue (MB) removal from aqueous solution. The results indicated that the amount of MB removal is high in alkaline pH (optimum pH = 9). The pseudo-second-order model was able to describe the effect of contact time on the adsorption ability. The Langmuir model well described the equilibrium manner, and one gram of Chitosan@TiO2 could attract 416.66 mg of MB. Kinetic data, values of parameters of activation energy (+57.283 kJ/mol), enthalpy (-86.8148 kJ/mol), and Gibbs free energy (-27.999 to −22.8987 kJ/mol) indicate the dominance of chemical adsorption over physical adsorption. The breakthrough curves of 3 adsorption/desorption cycles showed the acceptable ability and reusability of prepared nanomaterial. Synthesized biohybrid nanomaterial can reduce 75% COD and 79% nitrate of the effluent from industrial city no.3 of Yasouj. The results of this research show the high ability of chitosan@TiO2 biohybrid to remove dyes from wastewater and reduce the pollution load of industrial wastewater.
NOVELTY STATEMENT
This research’s novelty is synthesizing a biohybrid nanomaterial from TiO2 NPs (biosynthesized from Mangrove leaf) and chitosan (synthesized from food wastes (shrimp shells) via a sonochemical process). These biomaterials have been synthesized via fast and simple processes to reduce the use of hazardous and expensive chemicals. The Chitosan@TiO2 nanocomposite has a high adsorption capacity for cationic dye removal from aqueous solution, COD reduction, and nitrate removal from Industrial city wastewater.
Disclosure statement
The author reports there are no competing interests to declare.