利用活性炭合成氧化锌纳米结构光催化降解偶氮染料甲基橙

A. Ibrahim
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引用次数: 3

摘要

本研究以乙酸锌(前体)和活性炭羧酸衍生物为基体制备氧化锌纳米结构。用硝酸(AC-COOH)修饰氧化后的活性炭,制备羧酸衍生物。然后在改性活性炭的表面浸渍锌以加载它。通过BET、XRD和SEM对ZnO纳米结构进行表征,发现ZnO由比表面积容量为17.78 m2 g-1,尺寸范围为21 ~ 31 nm的纳米颗粒组成。在水介质中光催化水解染料甲基橙作为催化剂性能的测试用例。考虑了主要变量,包括pH、催化剂剂量、搅拌效果和起始染料浓度。紫外光下的活性测量显示了甲基橙(MO)光催化水解的满意结果。此外,还对未改性活性炭制备的甲基橙(MO)光解催化剂的效率进行了评价。结果表明,以活性炭分子的衍生物羧酸为基体制备的氧化锌比以真实活性炭为基体制备的氧化锌具有更好的光催化作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ZnO nanostructure synthesis for the photocatalytic degradation of azo dye methyl orange from aqueous solutions utilizing activated carbon
In this study, zinc acetate (as a precursor) and activated carbon carboxylic acid derivative were used to create the nanostructure of zinc oxide (ZnO) as a matrix. The carboxylic acid derivative was produced by modifying the oxidized activated carbon with nitric acid (AC-COOH). The modified activated carbon's surface was then impregnated with zinc to load it. By using BET, XRD, and SEM to characterize the ZnO nanostructure, it was discovered that it was composed of nanoparticles with a surface area capacity of 17.78 m2 g-1 and a size range of 21–31 nm. The photocatalytic hydrolysis of the dye methyl orange in an aqueous medium served as a test case for the catalyst's performance. The primary variables were considered, including pH, catalyst dose, stirring effect, and starting dye concentration. Measurements of activity below UV light revealed satisfactory outcomes for photocatalytic hydrolysis of the methyl orange (MO). In addition, the efficiency of the methyl orange (MO) photolysis catalyst prepared with unmodified activated carbon was also evaluated. The outcomes proved that zinc oxide (ZnO), made using a derivative carboxylic acid of activated carbon molecules by a matrix, had more good photocatalytic action than zinc oxide (ZnO) made by the real activated carbon matrix.
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CiteScore
2.10
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