On-site quantitative analysis of As(III) and As(V) in aqueous phase using portable laser-induced fluorescence platform.

Communications engineering Pub Date : 2025-07-30 DOI:10.1038/s44172-025-00473-8

Lixia Feng, Qilong Bian, Shujun Wu, Tianyu Gao, Pei Zhang, Shujian Dai, Zebing Zeng, Sheng Xie

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Abstract

Arsenic contaminants exist in different chemical forms with varying toxicity and mobility, making on-site analysis challenging. Here, a fluorogenic method is developed for the efficient detection of arsenite and arsenate ions using a portable platform directly in an aqueous phase. During sensing, the aggregation-induced emission (AIE) probe TPE-Cys/TPE-2Cys exhibits low fluorescence when dissolved, but reacts with the As(III) to form organic arsenic complexes with low solubility, inducing a turn-on fluorescence for quantitative analysis. Using a prior reduction strategy, the As(V) can be converted to As(III) and further analyzed in a sequential detection. Using a specialized laser-induced fluorescence instrument, this strategy allows on-site analysis of As(III) and As(V) species with sensitivity down to 0.14 ppb in environmental samples, showing that As(III) dominates while the As(V)/As(III) ratio varies in a constitutional equilibrium. The system has potential for the practical analysis of complex arsenic, revealing the dynamic arsenic transformations in the environment.

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便携式激光诱导荧光平台原位定量分析水相中As（III）和As(V)。

砷污染物以不同的化学形式存在，具有不同的毒性和流动性，使现场分析具有挑战性。在这里，开发了一种荧光方法，用于有效检测亚砷酸盐和砷酸盐使用便携式平台直接在水相。在传感过程中，聚集诱导发射（AIE）探针TPE-Cys/TPE-2Cys溶解时表现出低荧光，但与As（III）反应形成低溶解度的有机砷配合物，诱导荧光开启，用于定量分析。使用先验还原策略，可以将As(V)转换为As(III)，并在顺序检测中进一步分析。使用专门的激光诱导荧光仪器，该策略允许对环境样品中的As（III）和As(V)物种进行现场分析，灵敏度低至0.14 ppb，表明As（III）占主导地位，而As(V)/As（III）比例在结构平衡中变化。该系统有潜力用于复杂砷的实际分析，揭示环境中砷的动态转化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications engineering

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