Biogenic fabrication of spinel nickel ferrite imprinted on Bifurcaria bifurcata Macro-Alga activated carbon for the adsorption of ciprofloxacin and metronidazole

IF 4.1 2区 工程技术 Q2 ENGINEERING, CHEMICAL
Ajibola A. Bayode , Stephen Sunday Emmanuel , Saheed O. Sanni , Fatima Lakhdar , Lin Fu , Jianping Shang , Hua-Jun Shawn Fan
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Abstract

The rise in globalization and industrialization has led to an increase in population, increasing improperly treated discharge containing dyes, pharmaceuticals, pesticides etc in the water bodies. This has led to the need to remove these contaminants from water sources. The NiFe@BBAL adsorbent was developed and analyzed using various techniques such as FTIR, XRD, SEM, and XPS. The effectiveness of the NiFe@BBAL in adsorbing Ciprofloxacin (CIP) and metronidazole (MET) in water was tested. The adsorption of CIP and MET, both individually and in mixtures, was studied. The kinetic sorption experiments showed that the adsorption followed a pseudo-second-order model, with a higher R2 of 0.9934 for MET compared to 0.9916 for CIP. This suggests that the rate-limiting step is chemisorption. The primary adsorption mechanisms for both CIP and MET were hydrogen bonding, hydrophobic interactions, and electrostatic interactions, while CIP also involved electrostatic and metal complexation interactions. The NiFe@BBAL effluent showed no toxic effects on bacteria, indicating that no harmful material was leached in the effluent. The NiFe@BBAL demonstrated excellent performance and stability in removing 97.64% CIP and 97.62% MET in single contaminant experiments, and 57.33% CIP and 70.69% MET in cocktail mixture experiments. This can be attributed to the smaller structure of MET compared to CIP, allowing it better access to the active site, leading to higher adsorption. Furthermore, the repeated use of the adsorbent proved to be stable in the removal of CIP and MET over five cycles, demonstrating that the material is sustainable and suitable for large-scale experiments.
在双叉蕨大藻类活性炭上压印尖晶石镍铁氧体的生物制造工艺,用于吸附环丙沙星和甲硝唑
全球化和工业化的发展导致人口增加,水体中含有染料、药物和杀虫剂等未经适当处理的排放物也随之增加。因此,有必要去除水源中的这些污染物。我们开发了 NiFe@BBAL 吸附剂,并使用傅立叶变换红外光谱、XRD、扫描电镜和 XPS 等多种技术对其进行了分析。测试了 NiFe@BBAL 对水中环丙沙星(CIP)和甲硝唑(MET)的吸附效果。研究了 CIP 和 MET 的单独吸附和混合物吸附。动力学吸附实验表明,吸附遵循假二阶模型,MET 的 R2 为 0.9934,高于 CIP 的 0.9916。这表明限速步骤是化学吸附。CIP 和 MET 的主要吸附机制是氢键、疏水相互作用和静电作用,而 CIP 还涉及静电和金属络合相互作用。NiFe@BBAL 出水对细菌无毒性影响,表明污水中没有有害物质沥出。在单一污染物实验中,NiFe@BBAL 可去除 97.64% 的 CIP 和 97.62% 的 MET;在鸡尾酒混合物实验中,可去除 57.33% 的 CIP 和 70.69% 的 MET,表现出卓越的性能和稳定性。这可能是由于 MET 的结构比 CIP 小,能更好地进入活性位点,从而获得更高的吸附率。此外,反复使用该吸附剂的结果表明,在五个周期内,CIP 和 MET 的去除率都很稳定,这表明该材料具有可持续性,适合进行大规模实验。
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来源期刊
Chemical Engineering Science
Chemical Engineering Science 工程技术-工程:化工
CiteScore
7.50
自引率
8.50%
发文量
1025
审稿时长
50 days
期刊介绍: Chemical engineering enables the transformation of natural resources and energy into useful products for society. It draws on and applies natural sciences, mathematics and economics, and has developed fundamental engineering science that underpins the discipline. Chemical Engineering Science (CES) has been publishing papers on the fundamentals of chemical engineering since 1951. CES is the platform where the most significant advances in the discipline have ever since been published. Chemical Engineering Science has accompanied and sustained chemical engineering through its development into the vibrant and broad scientific discipline it is today.
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