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一种用于从水性废水中有效去除Cd(ii)离子的壳聚糖硫醇珠粒的可持续开发与表征方法。

A sustainable approach to the development and characterization of chitosan thiomer beads for the efficient removal of Cd(ii) ions from aqueous effluents.

作者信息

Abd El-Fattah Wesam, Guesmi Ahlem, Ben Hamadi Naoufel, Yahya Rana, Alraddadi Thamer S, Shahat Ahmed, Elshaarawy Reda F M

机构信息

Department of Chemistry, College of Science, Imam Mohammad Ibn Saud Islamic University (IMSIU) P.O. Box 5701 Riyadh 11432 Saudi Arabia.

Department of Chemistry, College of Science, University of Jeddah Jeddah Saudi Arabia.

出版信息

RSC Adv. 2025 Sep 16;15(40):33695-33707. doi: 10.1039/d5ra04050g. eCollection 2025 Sep 11.

DOI:10.1039/d5ra04050g
PMID:40963775
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12439248/
Abstract

This study presents a facile protocol for fabricating a new sustainable biosorbent, cross-linked thiourea-chitosan thiomer beads (CLCTB), as an eco-friendly scavenger for Cd ions from aqueous effluents. The success of the fabrication protocol was validated, and the molecular and morphological characteristics of the new scavenger were investigated using spectral, thermal, and microscopic analyses. SEM analysis revealed the highly porous nature of the new scavenger, which is favorable for metal ion adsorption. Batch adsorption experiments revealed optimal Cd removal at pH 6, 45 min contact time, 0.5 g adsorbent dose, and ambient temperature (25-30 °C). Kinetic studies showed that the pseudo-second-order model best described the adsorption process, indicating that chemisorption was the dominant mechanism. With a maximum adsorption capacity of 199.69 mg g, the Langmuir isotherm provided an optimal fit to the experimental data, proving CLCTB's high adsorption efficiency for Cd. The process was confirmed to be both spontaneous and exothermic through thermodynamic analysis. Additionally, the beads exhibited excellent reusability over six adsorption-desorption cycles, maintaining high performance, which highlights their potential for practical application in water treatment. This study presents CLCTB as a promising, sustainable, and eco-friendly adsorbent for the efficient removal of Cd from contaminated water.

摘要

本研究提出了一种简便的方法来制备一种新型可持续生物吸附剂——交联硫脲-壳聚糖硫醇珠(CLCTB),作为一种从水性废水中去除镉离子的环保型清除剂。制备方法的成功得到了验证,并使用光谱、热分析和显微镜分析对新型清除剂的分子和形态特征进行了研究。扫描电子显微镜(SEM)分析揭示了新型清除剂具有高度多孔的性质,这有利于金属离子的吸附。批量吸附实验表明,在pH值为6、接触时间为45分钟、吸附剂剂量为0.5克以及环境温度(25 - 30°C)的条件下,对镉的去除效果最佳。动力学研究表明,准二级模型最能描述吸附过程,这表明化学吸附是主要机制。朗缪尔等温线显示最大吸附容量为199.69毫克/克,与实验数据拟合良好,证明了CLCTB对镉具有高吸附效率。通过热力学分析证实该过程是自发且放热的。此外,这些珠子在六个吸附-解吸循环中表现出优异的可重复使用性,保持了高性能,这突出了它们在水处理实际应用中的潜力。本研究表明CLCTB是一种有前景的、可持续的且环保的吸附剂,可用于从受污染水中高效去除镉。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07c0/12439248/2d202428ecd5/d5ra04050g-s1.jpg
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