Adsorptive-photocatalytic removal of tetracycline from wastewater by Fe3O4- and SnO2-containing biochar nanocomposites

生物炭 废水 光催化 纳米复合材料 四环素 制浆造纸工业 化学 污水处理 吸附 化学工程 材料科学 环境化学 废物管理 环境科学 催化作用 环境工程 纳米技术 热解 有机化学 抗生素 生物化学 工程类
作者
Chuchen Zhang,Shuwen Zhao,Qilan Huang,Jianqiao Liu,Qianru Zhang
出处
期刊:Biochar [Springer Nature]
卷期号:7 (1) 被引量:39
标识
DOI:10.1007/s42773-024-00420-4
摘要

Abstract Tetracycline poses a major threat to the aquatic environment and human health, and there is an urgent need for a green, efficient and recyclable technological means to remove its negative effects. To address this need, three Fe 3 O 4 @SnO 2 modified wheat straw biochar nanocomposites with different Fe/Sn content ratios (Fe/Sn = 0.5, Fe/Sn = 1, and Fe/Sn = 2) were prepared by pyrolysis. The adsorption and degradation properties and related mechanisms of Fe 3 O 4 @SnO 2 modified wheat straw biochar nanocomposites were investigated by adsorption, degradation and free radical quenching experiments, as well as EPR analysis. The removal of tetracycline by Fe 3 O 4 @SnO 2 modified wheat straw biochar nanocomposites (Fe/Sn = 0.5) at pH 7.0 within 3 h was up to 91.80%, which is in accordance with the quasi-primary kinetic model. Under the interference of inorganic anions and cations, the removal of tetracycline by the composites was not affected by the coexisting ions except Ca 2+ , Mg 2+ , HCO 3 − and CO 3 2− . The composites were able to efficiently remove tetracycline from pharmaceutical wastewater with a removal rate of 82.33%. It was found that the composites could be reused at least five times. FTIR, XPS combined with DFT calculations elucidated the mechanism of tetracycline removal by the composites, with •OH and •O 2 − being the main substances involved in the photodegradation of tetracycline, the incorporation of manganese dioxide quantum dots enhancing the response to visible light, and the incorporation of magnetic nanoparticles resulting in rapid charge transfer and improved spatial separation of photogenerated carriers. The modification measures significantly increased the specific surface area of the biochar and enhanced the adsorption and photocatalytic properties. Based on these studies, the developed nanocomposites provide a new idea for the removal of antibiotics from pharmaceutical wastewater. Graphical Abstract
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