用单激光束结合光热效应的后向散射干涉测量法测定重金属的微尺度定量。

IF 5.6 1区化学 Q1 CHEMISTRY, ANALYTICAL

Talanta Pub Date : 2025-04-01 Epub Date: 2024-12-18 DOI:10.1016/j.talanta.2024.127390

Xiaoliang Zhang, Xiaohong Chen, Xiaofang Shi, Xiaochun Li, Hua-Zhong Yu

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引用次数: 0

摘要

建立了一种基于光热效应与单激光束反向散射干涉（BSI）的微量分析技术，用于重金属的定量检测。分析物在毛细管中发生显色反应后，用同一束激光照射引起的光热效应导致溶液折射率的变化，这种变化可以用BSI技术“量化”。为了验证概念，选择Cu（II）作为试验分析物，通过与显色剂反应，溶液变为紫色；采用532 nm的单束激光诱导光热效应并实现BSI检测。当溶液浓度为1.0 μL时，Cu（II）的检出限为0.10 mg/L。此外，该技术的通用性还体现在对其他两种重金属离子Fe（II）和Cr（VI）的检测上，检出限分别为0.06 mg/L和0.04 mg/L。这种新技术的检测灵敏度、应用的多功能性和仪器的简单性使其有望成为环境监测等领域的实用工具。

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Microscale quantitation of heavy metals by back-scattering interferometry in conjunction with photothermal effect using a single laser beam.

A microanalytical technique based on the photothermal effect in conjunction with back-scattering interferometry (BSI) using a single laser beam was developed for quantitative detection of heavy metals. After the chromogenic reaction of an analyte in a capillary tube, the photothermal effect induced by irradiation with the same laser beam leads to a change of the refractive index of the solution, which can be "quantified" using the BSI technique. For prove-of-concept, Cu(II) was chosen as the trial analyte, for which the solution changes to purplish through reacting with the chromogenic reagent; a single laser beam of 532 nm was adapted for both inducing the photothermal effect and realizing BSI detection. With as little as 1.0 μL solution, a limit of detection (LOD) of 0.10 mg/L for Cu(II) was achieved. In addition, the versatility of the technique was demonstrated by detecting other two heavy metal ions, Fe(II) and Cr(VI), with limits of detection of 0.06 mg/L and 0.04 mg/L, respectively. The demonstrated detection sensitivity, application versatility, and instrumentation simplicity of this new technique promises it as a practical tool for environmental monitoring and beyond.

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来源期刊

Talanta 化学-分析化学

CiteScore

12.30

自引率

4.90%

发文量

861

审稿时长

29 days

期刊介绍： Talanta provides a forum for the publication of original research papers, short communications, and critical reviews in all branches of pure and applied analytical chemistry. Papers are evaluated based on established guidelines, including the fundamental nature of the study, scientific novelty, substantial improvement or advantage over existing technology or methods, and demonstrated analytical applicability. Original research papers on fundamental studies, and on novel sensor and instrumentation developments, are encouraged. Novel or improved applications in areas such as clinical and biological chemistry, environmental analysis, geochemistry, materials science and engineering, and analytical platforms for omics development are welcome. Analytical performance of methods should be determined, including interference and matrix effects, and methods should be validated by comparison with a standard method, or analysis of a certified reference material. Simple spiking recoveries may not be sufficient. The developed method should especially comprise information on selectivity, sensitivity, detection limits, accuracy, and reliability. However, applying official validation or robustness studies to a routine method or technique does not necessarily constitute novelty. Proper statistical treatment of the data should be provided. Relevant literature should be cited, including related publications by the authors, and authors should discuss how their proposed methodology compares with previously reported methods.