利用富Al和O吸附中心的二维金属有机框架MIL-53(Al)高效去除水中氟化物

IF 14.3 1区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Science and Ecotechnology Pub Date : 2021-10-01 DOI:10.1016/j.ese.2021.100123

Lei Huang , Zhihui Yang , Sikpaam Issaka Alhassan , Zhixuan Luo , Baocheng Song , Linfeng Jin , Yixian Zhao , Haiying Wang

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引用次数: 13

摘要

本研究合成了金属有机骨架MIL-53(Al)，研究了正常MIL-53(Al)与二维金属有机骨架MIL-53(Al)除氟的不同机理。相比之下，二维MIL-53(Al)具有二维线性形态，而不是块状形态，表明比普通MIL-53(Al)暴露更多的吸附位点。采用间歇式吸附实验研究了二维MIL-53(Al)的吸附性能，包括pH值、吸附动力学和热力学。二维MIL-53(Al)吸附量为75.50 mg/g，优于普通MIL-53(Al) (35.63 mg/g)。二维MIL-53(Al)的吸附过程遵循拟一阶模型和Langmuir模型。通过实验表征和密度泛函理论计算，进一步研究了该材料的吸附机理。二维MIL-53(Al)中的主要吸附位点为Al和O，氟与Al和O的结合关系为HF2−>高频祝辞F−。在不同的pH和浓度下，氟化物的种类为HF2−、HF、F。因此，本研究为二维材料在除氟中的应用提供了一条重要途径。

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Highly efficient fluoride removal from water using 2D metal-organic frameworks MIL-53(Al) with rich Al and O adsorptive centers

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Highly efficient fluoride removal from water using 2D metal-organic frameworks MIL-53(Al) with rich Al and O adsorptive centers

In this study, metal-organic framework MIL-53(Al) was synthesized and studied to understand the different mechanisms between normal MIL-53(Al) and 2D metal-organic framework MIL-53(Al) for removing fluoride. Comparatively, the 2D MIL-53(Al) had two-dimensional linear morphology rather than block shape, indicating more expose adsorptive sites than normal MIL-53(Al). The batch adsorption experiments were applied to investigate the performance of 2D MIL-53(Al), including pH, adsorption kinetics, and thermodynamics. The 2D MIL-53(Al) (75.50 mg/g) showed better adsorption capacity than normal MIL-53(Al) (35.63 mg/g). The adsorption process of 2D MIL-53(Al) followed the pseudo-first-order model and Langmuir model. The adsorption mechanism of this material was further studied by using experimental characterization and density functional theory calculations in detail. The main adsorptive sites were Al and O in the 2D MIL-53(Al), and the relationship between fluoride binding with Al and O was HF₂⁻ > HF > F⁻. The species of fluoride were HF₂⁻, HF, F at different pH and concentrations. Hence, this study provides a significant way on the application of two-dimensional materials for removing fluoride.

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来源期刊

Environmental Science and Ecotechnology Multiple-

CiteScore

20.40

自引率

6.30%

发文量

审稿时长

18 days

期刊介绍： Environmental Science & Ecotechnology (ESE) is an international, open-access journal publishing original research in environmental science, engineering, ecotechnology, and related fields. Authors publishing in ESE can immediately, permanently, and freely share their work. They have license options and retain copyright. Published by Elsevier, ESE is co-organized by the Chinese Society for Environmental Sciences, Harbin Institute of Technology, and the Chinese Research Academy of Environmental Sciences, under the supervision of the China Association for Science and Technology.