基于反向光散射技术的铅离子快速灵敏检测

IF 0.5 4区化学 Q4 CHEMISTRY, ANALYTICAL

Journal of Water Chemistry and Technology Pub Date : 2025-05-26 DOI:10.3103/S1063455X25020092

Rui Yuan, Huachun Li, Kejun Tan, Qiuju Zhou, Fei Wu, Zhen Cheng

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引用次数: 0

摘要

本文提出了一种基于反向光散射（BLS）的新型铅离子（Pb(II)）检测分析方法。在pH为4.56的Britton - Robinson （BR）缓冲溶液中，环丙沙星（CIP）、刚果红（CR）和铅（II）通过静电吸引和疏水相互作用形成离子缔合物，显著增强了BLS强度。在399 nm处观察到最大的BLS峰。BLS强度与Pb（II）浓度在0.5 ~ 60.0 μM范围内呈线性关系，检出限（LOD）为50 nM。对BLS的光谱、吸收特性、反应机理进行了研究，考察了最佳反应条件及干扰物质的影响。该方法可用于环境水样中Pb（II）的测定，回收率在91 ~ 104%之间，相对标准偏差(RSD)≤4.7%。该方法具有分析速度快、灵敏度高、环境友好、稳定性好等特点，为利用BLS技术实时在线监测铅离子提供了理论基础。

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Rapid and Sensitive Detection of Lead Ions Based on Backward Light Scattering Technique

This work presents a novel analytical method for detecting lead ions (Pb(II)) based on backward light scattering (BLS). The BLS intensity was significantly enhanced by the formation of ion-association complexes between ciprofloxacin (CIP), Congo Red (CR), and Pb(II) through electrostatic attraction and hydrophobic interaction in a Britton−Robinson (BR) buffer solution at pH 4.56. The maximum BLS peak was observed at 399 nm. The BLS intensity showed a linear relationship with Pb(II) concentrations ranging from 0.5 to 60.0 μM, with a limit of detection (LOD) of 50 nM. Studies on the BLS spectrum, absorption characteristics, and reaction mechanism were conducted, and optimal reaction conditions as well as the impact of interfering substances were investigated. This method was successfully applied to the determination of Pb(II) in environmental water samples, achieving recoveries between 91 and 104%, with a relative standard deviation (RSD) ≤ 4.7%. The proposed BLS method offers rapid analysis, high sensitivity, environmental friendliness, and good stability, providing a theoretical basis for real-time, online monitoring of lead ions using BLS technology.

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来源期刊

Journal of Water Chemistry and Technology CHEMISTRY, APPLIED-CHEMISTRY, ANALYTICAL

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Water Chemistry and Technology focuses on water and wastewater treatment, water pollution monitoring, water purification, and similar topics. The journal publishes original scientific theoretical and experimental articles in the following sections: new developments in the science of water; theoretical principles of water treatment and technology; physical chemistry of water treatment processes; analytical water chemistry; analysis of natural and waste waters; water treatment technology and demineralization of water; biological methods of water treatment; and also solicited critical reviews summarizing the latest findings. The journal welcomes manuscripts from all countries in the English or Ukrainian language. All manuscripts are peer-reviewed.