一种基于硫化锌量子点的超选择性荧光化学传感器，用于检测水介质中可溶性 ppb 级总砷[As(iii)+As(v)]：利用聚集增强发射(AEE)进行直接分析测定以用于分析应用。

A ZnS quantum dot-based super selective fluorescent chemosensor for soluble ppb-level total arsenic [As(iii) + As(v)] in aqueous media: direct assay utilizing aggregation-enhanced emission (AEE) for analytical application.

作者信息

Kayal Saurav, Halder Mintu

机构信息

Department of Chemistry, Indian Institute of Technology Kharagpur, Kharagpur-721302, India.

出版信息

Analyst. 2019 Jun 21;144(12):3710-3715. doi: 10.1039/c9an00516a. Epub 2019 May 28.

DOI:10.1039/c9an00516a

PMID:31134231

Abstract

This study brings out a novel, superselective detection employing thiosalicylic acid-capped ZnS-based quantum dots that display photoluminescence "turn-on" characteristics only in the presence of arsenic in the aquatic medium for the first time. It shows a splendid limit of detection of soluble arsenic down to a few ppb level, much below than the MCL reported value, without being interfered by any other ions.

摘要

本研究首次提出了一种新颖的超选择性检测方法，该方法采用硫代水杨酸包覆的硫化锌基量子点，这种量子点仅在水生介质中存在砷时才显示光致发光“开启”特性。它显示出对可溶性砷的出色检测限，低至几ppb水平，远低于报告的最大污染物浓度值，且不受任何其他离子的干扰。

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一种基于硫化锌量子点的超选择性荧光化学传感器，用于检测水介质中可溶性 ppb 级总砷[As(iii)+As(v)]：利用聚集增强发射(AEE)进行直接分析测定以用于分析应用。

A ZnS quantum dot-based super selective fluorescent chemosensor for soluble ppb-level total arsenic [As(iii) + As(v)] in aqueous media: direct assay utilizing aggregation-enhanced emission (AEE) for analytical application.

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