Multilayer adsorption of reactive orange 16 dye onto Fe2O3/ZnO hybrid nanoadsorbent: mechanistic insights from kinetics, isotherms and dynamic light scattering studies

IF 2.8 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Nasira Hussain, Muhammad Asif, Shanza Shafaat, Muhammad Saqib Khan, Nadia Riaz, Mazhar Iqbal, Abdullah Javed, Tayyab Ashfaq Butt, Ahson Jabbar Shaikh, Muhammad Bilal
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Abstract

BACKGROUNDFe2O3/ZnO hybrid nanoadsorbent was synthesized by the coprecipitation method and characterized. The hydrodynamic size and stability of the nanoadsorbent were investigated in batch adsorption of toxic Reactive orange (RO)16 dye at increasing concentrations. The mechanism of monolayer and multilayer dye adsorption was elucidated for the first time together through dynamic light scattering (DLS), isotherm, kinetic and thermodynamic studies. A tomato seed germination assay was performed to confirm the material and treated water toxicity.RESULTSThe ferromagnetic nanoadsorbent exhibited 85% RO16 dye removal. Nonlinear fitting of isotherm and kinetic models suggest the chemisorption (monolayer) and physisorption (multilayer) of dye over the heterogeneous surface of the nanoadsorbent, respectively, at lower and higher concentration of dye. In line with these mechanistic insights, DLS studies demonstrate that monolayer adsorption increased hydrodynamic size up to 100 mg L−1 by face‐off binding of dye molecules, whereas multilayer adsorption was in the 100–500 mg L−1 concentration range; besides increase in adsorption capacity, did not magnify hydrodynamic size owing to face‐on binding with multiple dye molecule stacking. Zeta potential data confirmed greater stability of the nanoadsorbent at solution pH with large hydrodynamic size. Thermodynamic studies suggested that endothermic and spontaneous adsorption process primarily controlled physical adsorption at higher dye concentrations. A toxicity assay proved that the nanoadsorbent and treated water are environmentally safe.CONCLUSIONDLS, isotherm and kinetic studies elucidated the complex adsorption mechanism over a heterogenous surface of a hybrid nanoadsorbent. It was found that monolayer chemisorptive face‐off binding of RO16 molecules increased hydrodynamic size whereas multilayer physisorptive face‐on binding did not affect hydrodynamic size; rather, it remained stable with increasing RO16 concentration. © 2024 Society of Chemical Industry (SCI).
活性橙 16 染料在 Fe2O3/ZnO 混合纳米吸附剂上的多层吸附:从动力学、等温线和动态光散射研究中获得的机理启示
背景采用共沉淀法合成了氧化铁/氧化锌杂化纳米吸附剂,并对其进行了表征。在批量吸附毒性活性橙(RO)16 染料时,研究了纳米吸附剂的水动力学尺寸和稳定性。通过动态光散射(DLS)、等温线、动力学和热力学研究,首次阐明了单层和多层染料吸附的机理。结果铁磁性纳米吸附剂的 RO16 染料去除率达到 85%。等温线和动力学模型的非线性拟合表明,在染料浓度较低和较高时,染料在纳米吸附剂的异质表面上分别存在化学吸附(单层)和物理吸附(多层)。与这些机理认识相一致的是,DLS 研究表明,单层吸附通过染料分子的面对面结合,增加了高达 100 毫克/升的流体力学尺寸,而多层吸附则在 100-500 毫克/升的浓度范围内;除了吸附容量的增加外,由于多染料分子堆叠的面对面结合,并没有放大流体力学尺寸。Zeta 电位数据证实了纳米吸附剂在溶液 pH 值和较大的流体力学尺寸下具有更高的稳定性。热力学研究表明,在染料浓度较高时,内热和自发吸附过程主要控制物理吸附。毒性检测证明,纳米吸附剂和处理过的水对环境是安全的。结论DLS、等温线和动力学研究阐明了混合纳米吸附剂异质表面的复杂吸附机理。研究发现,RO16 分子的单层化学吸附性面对面结合增加了水动力学尺寸,而多层物理吸附性面对面结合并不影响水动力学尺寸;相反,随着 RO16 浓度的增加,水动力学尺寸保持稳定。© 2024 化学工业学会(SCI)。
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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来源期刊
CiteScore
7.00
自引率
5.90%
发文量
268
审稿时长
1.7 months
期刊介绍: Journal of Chemical Technology and Biotechnology(JCTB) is an international, inter-disciplinary peer-reviewed journal concerned with the application of scientific discoveries and advancements in chemical and biological technology that aim towards economically and environmentally sustainable industrial processes.
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