采用环境友好途径合成谷胱甘肽修饰的荧光 CdS QDs 用于水相中汞离子的检测。

Glutathione Modified Fluorescent CdS QDs Synthesized Using Environmentally Benign Pathway for Detection of Mercury Ions in Aqueous Phase.

机构信息

Energy Research Centre, Panjab University, Chandigarh, 160014, India.

Department of Chemistry & Centre for Advanced Studies in Chemistry, Panjab University, Chandigarh, 160014, India.

出版信息

J Fluoresc. 2020 Jul;30(4):773-785. doi: 10.1007/s10895-020-02545-8. Epub 2020 May 16.

DOI:10.1007/s10895-020-02545-8

PMID:32418161

Abstract

An adept, rapid and novel water-soluble glutathione functionalized CdS quantum dots (GSH@CdS QDs) were fabricated using green pathway for sensing of heavy metal contamination prevalent in industrial wastewater. GSH@CdS QDs were facilely synthesized in an aqueous phase reaction and were effectively characterized using FT-IR, XRD, FESEM, HRTEM and EDX techniques. The distinct fluorescence characteristics of GSH@CdS QDs were explored and the QDs showed selective sensitivity towards mercury ions with a low limit of detection of 0.54 nM under optimal conditions. The detailed interaction between GSH@CdS QDs and Hg and the probable fluorescence quenching mechanism were established in this study. In comparison to already reported fluorescent probes, GSH@CdS QDs showed high sensitivity, biocompatibility, long fluorescence stability and convenient removal of mercury ions. Graphical Abstract Facile green route for the fabrication of glutathione capped CdS quantum dots for fluorescence-based detection of toxic Hg ions.

摘要

采用绿色途径制备了一种灵敏、快速且新颖的水溶性谷胱甘肽功能化 CdS 量子点（GSH@CdS QDs），用于检测工业废水中普遍存在的重金属污染。GSH@CdS QDs 在水相反应中很容易合成，并通过傅里叶变换红外光谱（FT-IR）、X 射线衍射（XRD）、场发射扫描电子显微镜（FESEM）、高分辨率透射电子显微镜（HRTEM）和能谱（EDX）技术进行了有效的表征。研究了 GSH@CdS QDs 的独特荧光特性，并且在最佳条件下，QDs 对汞离子表现出选择性灵敏度，检测限低至 0.54 nM。在本研究中，建立了 GSH@CdS QDs 与 Hg 之间的详细相互作用以及可能的荧光猝灭机制。与已报道的荧光探针相比，GSH@CdS QDs 具有高灵敏度、生物相容性、长荧光稳定性和方便去除汞离子的优点。

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采用环境友好途径合成谷胱甘肽修饰的荧光 CdS QDs 用于水相中汞离子的检测。

Glutathione Modified Fluorescent CdS QDs Synthesized Using Environmentally Benign Pathway for Detection of Mercury Ions in Aqueous Phase.

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