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ABSTRACT
In this work, a novel hydrogel⁄Fe2O3 composite was synthesized using the microwave-induced copolymerization/sol-gel method. The synthesised hydrogel⁄Fe2O3 composite was characterised by many instruments as FT-IR, XRD, FE-SEM, CHN elemental analysis, and UV-Vis spectrophotometer. The broad peak in the XRD pattern confirms the amorphous structure of the synthesised hydrogel⁄Fe2O3 composite. The diffraction peaks at 2ϴ = 26.92°, 23.50°, and 12.80°, indexed as (013), (130), and (021), respectively confirm the presence of crystalline sheets of chitin. The presence of a peak at 2ϴ = 16.73° (154) was observed because of the presence of polyacrylamide. The synthesised hydrogel⁄Fe2O3 composite was used for the removal of acid orange 8 dye from aqueous media by the adsorption/photocatalytic method. The % removal (% R) increases with an increase in time from 5 min (% R = 14) to 25 min (% R = 52), and after that, approximate stability occurs. In the case of the presence of hydrogen peroxide and hydrogel⁄Fe2O3 composite, the % degradation (% D) under UV irradiations increases with an increase in irradiation time from 10 min (% D = 37.50) to 50 min (% D = 100). The first order is the suitable kinetic model for the description of adsorption and photocatalytic processes.
Acknowledgments
This Research was funded by The Deanship of Scientific Research at Princess Nourah Bint Abdulrahman University through the Fast-Track Research Funding Program.
Disclosure of potential conflicts of interest
No potential conflict of interest was reported by the author(s).