利用壳聚糖-Fe2O3 复合材料和光-芬顿降解亚甲基蓝

D. Desnelli, Kurnia Ramadhina, Daniel Alfarado, Fatma Fatma, Ady Mara, Muhammad Said
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摘要

本研究旨在利用合成壳聚糖-Fe2O3 复合材料研究亚甲基蓝的光降解过程及其表征。从合成材料的表征来看,壳聚糖-Fe2O3(1:1)复合材料的表征最好,晶体尺寸最小(1.13 nm),表面形态呈块状,形状不均匀,成分(碳(C)42.88%、氧(O)48.68% 和铁(Fe)29.90%),并显示出最小的能带间隙(1.41 eV),这使我们得出结论:壳聚糖-Fe2O3 复合材料的形成可以减小 Fe2O3 的能带间隙。最佳复合材料随后被用来评估其降解亚甲基蓝的活性。在接触时间为 180 分钟、pH 值为 9 时,降解效果达到最佳,亚甲基蓝浓度下降了 90.00%。浓度变化的影响出现在百万分之 5 时,降幅为 89.62%。总有机碳分析表明,亚甲基蓝浓度降低了 92.20%。据此得出结论,壳聚糖-Fe2O3 复合材料可能是一种降解亚甲基蓝的替代材料。
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Methylene blue degradation using chitosan-Fe2O3 composite and photo-Fenton
This study aims to study the photodegradation process of methylene blue using a synthetic chitosan-Fe2O3 composite and their characterization. Based on the characterization material synthetic, chitosan-Fe2O3 (1:1) composite showed the best material with the smallest crystal size (1.13 nm), the surface morphology was lumpy and had an uneven shape with the composition of the constituent (Carbon (C) 42.88%, Oxygen (O) 48.68%, and Iron (Fe) 29.90%), and showed the smallest energy band gap (1.41 eV) which led us to conclude that the formation of the chitosan-Fe2O3 composite can reduce the energy band gap of Fe2O3. The best composite material then was used to evaluate the activity in degrading methylene blue. The optimum condition in degrading was reached at a contact time of 180 min and pH 9 with a percentage decrease in methylene blue concentration of 90.00%. The effect of concentration variations occurred at 5 ppm with a decrease of 89.62%. Total organic carbon analysis showed that the decrease in methylene blue concentration reached 92.20%. Based on that, it is concluded that the chitosan-Fe2O3 composite could be a potential alternative material to degrade methylene blue.
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