Removal of Levofloxacin by Activation of Peroxomonosulfate Using T-POMs@ZIF-67

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-12-29 DOI:10.3390/jcs8010013

Yihao Zhang, Ning Kang, Shipu Jiao, Yang Li, Xu Zhang, Xianhua Liu

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引用次数: 0

Abstract

The pyrolysis of metal-organic frameworks (MOFs) is a popular strategy for the synthesis of nanoporous structures. Polymetallic oxides (POMs) are a class of polyhedral structural compounds with unique physicochemical properties. Little effort has been paid to evaluate MOF-POM hybrid-derived materials for peroxomonosulfate (PMS) activation. In this study, a cobalt-based MOF, ZIF-67, together with three types of POMs (phosphomolybdic acid, silicotungstic acid, and phosphotungstic acid), were used as precursors for the synthesis of PMS activation catalyst via pyrolysis. Three T-POMs@ZIF-67 nanohybrids (T-PMo@ZIF-67, T-SiW@ZIF-67, and T-PW@ZIF-67) were obtained by pyrolyzing the prepared precursors at 500 °C. Furthermore, the prepared T-POMs@ZIF-67 nanomaterials were evaluated for the catalytic activation of PMS in the degradation of levofloxacin (LEV). The results showed that the LEV degradation rate could reach 91.46% within 30 min under the optimized conditions when T-PW@ZIF-67 was used as the PMS activation catalyst. The catalytic efficiency of the catalyst decreased by only 9.63% after five cycles, indicating that the material has good stability. This work demonstrates the great potential of POMs@MOF derivatives for application in the field of wastewater treatment.

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利用 T-POMs@ZIF-67 活化硫酸过氧单胞菌去除左氧氟沙星

热解金属有机框架（MOFs）是合成纳米多孔结构的一种常用策略。多金属氧化物（POMs）是一类具有独特物理化学特性的多面体结构化合物。在评估 MOF-POM 混合衍生材料对过氧单胞硫酸酯（PMS）的活化作用方面，目前还鲜有研究。本研究以钴基 MOF ZIF-67 和三种 POM（磷钼酸、硅钨酸和磷钨酸）为前驱体，通过热解合成了 PMS 活化催化剂。通过在 500 °C 下热解所制备的前驱体，得到了三种 T-POMs@ZIF-67 纳米杂化物（T-PMo@ZIF-67、T-SiW@ZIF-67 和 T-PW@ZIF-67）。此外，还评估了所制备的 T-POMs@ZIF-67 纳米材料在左氧氟沙星（LEV）降解过程中对 PMS 的催化活化作用。结果表明，以T-PW@ZIF-67作为PMS活化催化剂，在优化条件下，30分钟内左氧氟沙星的降解率可达91.46%。五次循环后，催化剂的催化效率仅下降了 9.63%，表明该材料具有良好的稳定性。这项工作证明了 POMs@MOF 衍生物在废水处理领域的巨大应用潜力。

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