A Light-Driving Magnetic Nanocomposite Based on Zn/Fe/Cu Embedded in HKUST-1 Applied for Adsorption/Degradation of Indigo Carmine and Pathogens

Environmental Technology and Innovation Pub Date : 2023-11-01 DOI:10.1016/j.eti.2023.103439

Peyman Ghorbani, Zahra Sadat Mojtabapour, Fatemeh Ganjali, Fereshteh Rasouli Asl, Mohadeseh Forouzandeh-Malati, Zahra Rashvandi, Amir Kashtiaray, Farhad Esmailzadeh, Simindokht Zarei-Shokat, Reza Taheri-Ledari, Ali Maleki

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Abstract

An environmentally friendly photocatalytic system (type-II heterojunction) is designed and utilized for rapid removal of Indigo carmine (IC) and pathogens from aqueous samples. This photocatalyst contains ZnFe2O4 magnetic NPs, CuO semiconductor, β-cyclodextrin (β-CD) charge transferor, and HKUST-1 light harvester. After the adsorption and photodegradation process, the nanocomposite was separated magnetically, and the supernatant was taken for the UV-Vis analysis. The maximum adsorption and photodegradation efficiency of 94.45% and 97.67% (pH = 5, in 35 minutes) were obtained under blue LED light (7.0 W) irradiation, due to the calculations based on UV-Vis spectrophotometer results. Simple preparation via a self-assembly route and facile separation through a superparamagnetic behavior (leading to great recovery) can be mentioned as the most brilliant excellence. Moreover, the photocatalytic performance of this magnetic nanocomposite was preserved after five recycle runs without any substantial reduction in photocatalytic activity. Also, employing a biopolymer, affordability, availability of the raw materials, good thermal stability, facile magnetic separation, simple operation, and high efficiency are upsides of the prepared nanocomposite, making it a superior photocatalyst to previous analogous systems. This nanocomposite (formulated as ZnFe2O4-CuO@β-CD)/HKUST-1) also exhibited antibacterial activity against Gram-positive and -negative strains. Based on BET (porosity) evaluations, the nanocomposite has rendered a surface area of 451.52 m2/g, which led to great adsorption results representing first-order and pseudo-second-order (Freundlich isotherm) kinetic models for the degradation and adsorption processes, respectively.

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基于Zn/Fe/Cu的光驱动磁性纳米复合材料在HKUST-1上的吸附/降解靛蓝胭脂红和病原体的应用

设计了一种环境友好型光催化系统(ii型异质结)，用于快速去除水中样品中的靛蓝胭脂红(IC)和病原体。该光催化剂由ZnFe2O4磁性纳米粒子、CuO半导体、β-环糊精(β-CD)电荷转移体和HKUST-1光收集器组成。经过吸附和光降解过程后，磁性分离纳米复合材料，取上清液进行紫外可见分析。根据紫外-可见分光光度计的结果计算，在7.0 W蓝光LED光(pH = 5, 35 min)照射下，吸附和光降解效率分别为94.45%和97.67%。通过自组装路线的简单制备和通过超顺磁行为的易于分离(导致高回收率)可以被称为最辉煌的优点。此外，该磁性纳米复合材料的光催化性能在五次循环后仍然保持不变，而光催化活性没有明显降低。此外，采用生物聚合物、可负担性、原料可获得性、良好的热稳定性、易于磁分离、操作简单、效率高是制备的纳米复合材料的优点，使其成为比以前类似系统更好的光催化剂。该纳米复合材料(配方为ZnFe2O4-CuO@β-CD)/HKUST-1)也对革兰氏阳性和阴性菌株具有抗菌活性。基于BET(孔隙率)评价，纳米复合材料的表面积为451.52 m2/g，具有良好的吸附效果，分别代表降解和吸附过程的一级和准二级(Freundlich等温线)动力学模型。

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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Environmental Technology and Innovation

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