Polyoxometalate anchored zinc oxide nanocomposite as a highly effective photocatalyst and bactericide for wastewater decontamination

多金属氧酸盐 人体净化 纳米复合材料 光催化 废水 化学 吸附 核化学 化学工程 废物管理 材料科学 纳米技术 催化作用 有机化学 工程类
作者
Cuili Xing,Min Ma,Jiangnan Chang,Zhe Ji,Peifang Wang,Lin Sun,Shijie Li,Mingxue Li
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:464: 142632-142632 被引量:58
标识
DOI:10.1016/j.cej.2023.142632
摘要

Considering the remediation of water enviroments polluted by antibiotics and bacteria, it is critical to construct cost-effective, high-performance and environmentally friendly composites. In this work, a novel [email protected]/Cu-POMs nanocomposite was first synthesized by post-grafting polyoxometalate (Cu-POMs) onto ZnO with the assistance of polydopamine (PDA) layer and then fully characterized. The nanocomposite exhibits high-efficiency photocatalytic degradation of tetracycline (TC, 90.75%) with good stability. Furthermore, it retains almost 80% removal efficiency in the presence of competing species. The excellent removal ability was derived from the Z-scheme heterostructure with compact interfacial contact and the synergistic effect between adsorption and photocatalysis. The photocatalytic mechanism and degradation pathway of TC also are elucidated. More importantly, the computational eco-toxicity analysis indicated that the degradation products had low biotoxicity compared to the original TC. It's worth noting that the [email protected]/Cu-POMs nanocomposite shows extraordinary antibacterial activities against four gram-positive/negative bacteria (S. aureus, 99.88%, E. coli, 99.93%, B. cereus, 99.68%, P. aeruginosa, 99.60%) and two antibiotic-resistant bacteria (kanamycin-resistant E. coli, 92.27% and ampicillin-resistant E. coli, 88.93%) at low concentrations. Moreover, the antibacterial mechanism revealed that the synergistic action between [email protected] and Cu-POMs damages the cellular membrane, increases oxidative stress levels, and leads to the death of bacteria. The current work provides a new perspective on the construction of multifunctional POM-based composites for environmental cleaning and water purification.
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