用于检测环境水中汞（II）的邻苯二胺衍生荧光碳量子点

o-phenylenediamine Derived Fluorescent Carbon Quantum dots for Detection of Hg(II) in Environmental Water.

作者信息

Hu Anqi, Chen Guoqing, Huang Anlan, Cai Zicheng, Yang Taiqun, Ma Chaoqun, Li Lei, Gao Hui, Gu Jiao, Zhu Chun, Wu Yamin, Qiu Xiaoqian, Xu Jinzeng, Shen Jialu, Zhong Lvyuan

机构信息

School of Science, Jiangnan University, 214122, Wuxi, China.

Jiangsu Provincial Research Center of Light Industrial Optoelectronic Engineering and Technology, 214122, Wuxi, China.

出版信息

J Fluoresc. 2024 Mar;34(2):905-913. doi: 10.1007/s10895-023-03331-y. Epub 2023 Jul 7.

DOI:10.1007/s10895-023-03331-y

PMID:37418199

Abstract

With the expansion of human activities, the consequent influx of mercury (Hg) into the food chain and the environment is seriously threatening human life. Herein, nitrogen and sulfur co-doped fluorescent carbon quantum dots (yCQDs) were prepared via a hydrothermal method using o-phenylenediamine (OPD) and taurine as precursors. The morphological characteristics as well as spectral features of yCQDs indicated that the photoluminescence mechanism should be the molecular state fluorophores of 2, 3-diaminophenothiazine (oxOPD), which is the oxide of OPD. The as-synthesized yCQDs exhibited sensitive recognition of Hg. According to the investigation in combination of UV-Vis absorption spectra, time-resolved fluorescence spectra and quantum chemical calculations, the abundant functional groups on the surface of yCQDs allowed Hg to bind with yCQDs through various interactions, and the formed complexes significantly inhibited the absorption of excitation light, resulting in the static fluorescence quenching of yCQDs. The proposed yCQDs was utilized for Hg sensing with the limit of detection calculated to be 4.50 × 10 M. Furthermore, the recognition ability of yCQDs for Hg was estimated in tap water, lake water and bottled water, and the results indicated that yCQDs have potential applications in monitoring Hg.

摘要

随着人类活动的扩展，随之而来的汞（Hg）流入食物链和环境正严重威胁着人类生命。在此，以邻苯二胺（OPD）和牛磺酸为前驱体，通过水热法制备了氮硫共掺杂荧光碳量子点（yCQDs）。yCQDs的形态特征和光谱特征表明，其光致发光机制应为OPD的氧化物2,3-二氨基吩噻嗪（oxOPD）的分子态荧光团。合成的yCQDs对Hg表现出灵敏的识别能力。结合紫外可见吸收光谱、时间分辨荧光光谱和量子化学计算研究发现，yCQDs表面丰富的官能团使Hg能通过各种相互作用与yCQDs结合，形成的配合物显著抑制激发光的吸收，导致yCQDs的静态荧光猝灭。所制备的yCQDs用于Hg传感，计算得出的检测限为4.50×10⁻⁸ M。此外，还评估了yCQDs在自来水、湖水和瓶装水中对Hg的识别能力，结果表明yCQDs在监测Hg方面具有潜在应用价值。

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用于检测环境水中汞（II）的邻苯二胺衍生荧光碳量子点

o-phenylenediamine Derived Fluorescent Carbon Quantum dots for Detection of Hg(II) in Environmental Water.

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