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使用具有 carbohydrazide 键的新型超声吸附剂三嗪聚合物从水中捕获三氯生:实验和理论研究。

Encapturing triclosan from water using a novel sonoadsorbent triazine polymer with carbohydrazide linkages: experimental and theoretical studies.

作者信息

Peter Silpa Elizabeth, Krishnan Saumya, Suneesh C V, Thomas Paul, Elambalassery Jayasree, Vairavel P, Anil Kumar N V

机构信息

Department of Chemistry, Manipal Institute of Technology, Manipal Academy of Higher Education Manipal - 576104 India.

Department of Chemistry, University of Kerala Kariavattom Campus Thiruvananthapuram Kerala India

出版信息

RSC Adv. 2025 Sep 15;15(40):33466-33479. doi: 10.1039/d5ra02743h. eCollection 2025 Sep 11.

DOI:10.1039/d5ra02743h
PMID:40959304
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12434462/
Abstract

Triclosan (TCS), an active ingredient in personal hygiene products, has been considerably used and found in water bodies due to its increasing consumption. Even at minimal concentrations, TCS can harm living organisms, contributing to antimicrobial resistance and disrupting the reproductive and endocrine systems, raising significant environmental and health concerns. In this study, we developed a novel triazine-rich porous polymer, CCCH CTP (from cyanuric chloride and carbohydrazide), which exhibits a semicrystalline structure with spherical morphology. It is characterized by a porous area of 24 m g with thermal stability up to 250 °C. It is used as an adsorbent supported by ultrasonication to remove TCS with an efficiency of 81% in acidic pH 3. The adsorption process reached saturation within 25 minutes, unveiling the effectiveness of the polymer. The maximum adsorbing capacity was determined to be 83.89 mg g, agreeing in terms of pseudo-second-order kinetics with the Freundlich isotherm model, indicating favorable chemisorption characteristics. These results were validated at the molecular level by the DFT calculations. These findings emphasize the potential of such porous materials in environmental remediation, highlighting their role in tackling the challenge of TCS contamination in water bodies.

摘要

三氯生(TCS)是个人卫生用品中的一种活性成分,由于其消费量不断增加,已被大量使用并在水体中被发现。即使在极低浓度下,TCS也会对生物造成危害,导致抗菌耐药性,并扰乱生殖和内分泌系统,引发重大的环境和健康问题。在本研究中,我们开发了一种新型的富含三嗪的多孔聚合物CCCH CTP(由三聚氯氰和 carbohydrazide制成),它具有球形形态的半结晶结构。其特征在于多孔面积为24 m g,热稳定性高达250°C。它用作超声辅助的吸附剂,在酸性pH 3条件下去除TCS的效率为81%。吸附过程在25分钟内达到饱和,揭示了该聚合物的有效性。最大吸附容量测定为83.89 mg g,在伪二级动力学方面与Freundlich等温线模型相符,表明具有良好的化学吸附特性。这些结果通过DFT计算在分子水平上得到了验证。这些发现强调了此类多孔材料在环境修复中的潜力,突出了它们在应对水体中TCS污染挑战方面的作用。

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Thiophene-Based Porous Triazine Polyamide (Tb-PTPa) as the Next Promising and Cost-Effective Eliminator of Hg in Aqueous Media.
ACS Appl Mater Interfaces. 2025 Mar 5;17(9):13970-13979. doi: 10.1021/acsami.4c21158. Epub 2025 Feb 19.
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Covalent organic frameworks with nitrogen-rich triazine units and suitable pore size for highly efficient adsorption and sensitive detection of bisphenols in water.具有富氮三嗪单元且孔径适宜的共价有机框架用于水中双酚的高效吸附与灵敏检测
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Carbazole and Triazine-Based D-A Covalent Organic Framework for Visible Light-Mediated Photocatalytic C-H Activation of Imidazopyridine and Indole.
Langmuir. 2024 Nov 12;40(45):24148-24161. doi: 10.1021/acs.langmuir.4c03647. Epub 2024 Oct 29.
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Effects of reduced graphene oxide nanomaterials on transformation of C-triclosan in soils.减少的氧化石墨烯纳米材料对土壤中 C-三氯生转化的影响。
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