Preparation and Characterization of Chitosan-Modified Bentonite Hydrogels and Application for Tetracycline Adsorption from Aqueous Solution.

IF 5 3区化学 Q1 POLYMER SCIENCE

Gels Pub Date : 2024-07-28 DOI:10.3390/gels10080503

Xuebai Guo, Zhenjun Wu, Zheng Lu, Zelong Wang, Shunyi Li, Freeman Madhau, Ting Guo, Rongqican Huo

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引用次数: 0

Abstract

The "sol-gel method" was used to prepare spherical chitosan-modified bentonite (SCB) hydrogels in this study. The SCB hydrogels were characterized and used as sorbents to remove tetracycline (TC) from aqueous solutions. The adsorbents were characterized by SEM, XRD, FTIR, TG, and BET techniques. Various characterization results showed that the SCB adsorbent had fewer surface pores and a specific surface area that was 96.6% lower than the powder, but the layered mesoporous structure of bentonite remained unchanged. The adsorption process fit to both the Freundlich model and the pseudo-second-order kinetic model showed that it was a non-monolayer chemical adsorption process affected by intra-particle diffusion. The maximum monolayer adsorption capacity determined by the Langmuir model was 39.49 mg/g. Thermodynamic parameters indicated that adsorption was a spontaneous, endothermic, and entropy-increasing process. In addition, solid-liquid separation was easy with the SCB adsorbent, providing important reference information for the synthesis of SCB as a novel and promising adsorbent for the removal of antibiotics from wastewater at the industrial level.

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壳聚糖改性膨润土水凝胶的制备和表征及其在水溶液中四环素吸附中的应用

本研究采用 "溶胶-凝胶法 "制备了球形壳聚糖改性膨润土（SCB）水凝胶。对 SCB 水凝胶进行了表征，并将其用作从水溶液中去除四环素（TC）的吸附剂。吸附剂的表征采用了 SEM、XRD、FTIR、TG 和 BET 技术。各种表征结果表明，SCB 吸附剂的表面孔隙更少，比表面积比粉末低 96.6%，但膨润土的层状介孔结构保持不变。根据 Freundlich 模型和伪二阶动力学模型拟合的吸附过程表明，这是一个受颗粒内扩散影响的非单层化学吸附过程。根据 Langmuir 模型确定的最大单层吸附容量为 39.49 毫克/克。热力学参数表明，吸附是一个自发、内热和熵增加的过程。此外，使用 SCB 吸附剂很容易实现固液分离，这为将 SCB 合成为一种新型、有前途的吸附剂，用于去除工业废水中的抗生素提供了重要的参考信息。

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来源期刊

Gels POLYMER SCIENCE-

CiteScore

4.70

自引率

19.60%

发文量

707

审稿时长

11 weeks

期刊介绍： The journal Gels (ISSN 2310-2861) is an international, open access journal on physical (supramolecular) and chemical gel-based materials. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the maximum length of the papers, and full experimental details must be provided so that the results can be reproduced. Short communications, full research papers and review papers are accepted formats for the preparation of the manuscripts. Gels aims to serve as a reference journal with a focus on gel materials for researchers working in both academia and industry. Therefore, papers demonstrating practical applications of these materials are particularly welcome. Occasionally, invited contributions (i.e., original research and review articles) on emerging issues and high-tech applications of gels are published as special issues.