Synthesis and characterization of TiO2-Fe for photocatalytic applications of domestic waste

Annisa Rahmadhani, Hasmalina Nasution, P. Prasetya, Novialis Dayumita, Sri Hilma Siregar
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Abstract

Wastewater originating from household, industrial, and public places that contains materials can endanger human life and living things and disrupt environmental sustainability. Various methods have recycled domestic wastewater. One is through the photodegradation process utilizing ultraviolet light in the photocatalytic process. Inorganic materials are semiconductors with photocatalyst activity that can absorb photons and simultaneously carry out material interface transformation reactions. The research aimed to determine the effect of adding Fe metal dopants on TiO2 photocatalyst activity in simulated methylene blue and domestic waste treatment. The precursor used was TiO2 P25 Degussa Anatase. Fe dopant was added using the hydrothermal method with variations of 2%, 4%, and 6%. The XRD characterization results show that TiO2 has a high degree of crystallinity, so the overall process of electron diffusion and electron transfer in SSPT is higher to increase its efficiency. SEM-EDX characterization results show that TiO2-Fe particles are scattered in a spherical shape with a size of less than (<)100 nm and tend to agglomerate. Test results of simulated methylene blue (MB) waste with a UV-Vis spectrophotometer at variations in mass, concentration, pH, and time showed that the addition of doping could increase photocatalytic activity and optimum conditions at 6% (F6) were used in the analysis of parameters pH, COD and TSS of domestic wastewater. The pH value increased from 5 to 6, % COD degradation was 59.17%, and TSS was 23.07%. This research showed that TiO2-Fe was effective enough for domestic wastewater treatment.
二氧化钛-铁在生活垃圾光催化中的合成与表征
来自家庭、工业和公共场所的废水含有危害人类生命和生物的物质,破坏环境的可持续性。各种方法回收了生活废水。一种是通过光降解过程,在光催化过程中利用紫外线。无机材料是具有光催化剂活性的半导体,可以吸收光子,同时进行材料界面转化反应。本研究旨在确定在模拟亚甲基蓝和生活垃圾处理中添加Fe金属掺杂剂对TiO2光催化剂活性的影响。前驱体为TiO2 P25德固赛锐钛矿。采用水热法分别添加2%、4%和6%的铁掺杂剂。XRD表征结果表明,TiO2具有较高的结晶度,因此在SSPT中电子扩散和电子转移的整体过程更高,从而提高了其效率。SEM-EDX表征结果表明,TiO2-Fe颗粒呈球形分散,粒径小于(<)100 nm,并有团聚的趋势。用紫外-可见分光光度计对模拟亚甲基蓝(MB)废液在不同质量、浓度、pH和时间下的测试结果表明,掺杂能提高亚甲基蓝废液的光催化活性,并采用6% (F6)的最佳条件对生活废水的pH、COD和TSS参数进行了分析。pH值从5提高到6,COD的去除率为59.17%,TSS为23.07%。研究表明,TiO2-Fe对生活污水的处理效果良好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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