A Fluorescent Sensor Based on P-Doped Biomass Carbon Quantum Dots for Selective Detection of Hg2+

IF 0.9 4区材料科学 Science of Advanced Materials Pub Date : 2024-04-01 DOI:10.1166/sam.2024.4662

Wen He, S. Lim, R. Baini, Yanping Qu, Hai-Yu Zhou

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Abstract

The pollution problem caused by mercury ions (Hg2+) is becoming increasingly serious, and it is imperative to establish a methodology that is tailored to the precise identification of Hg2+. Phosphorus-doped biomass carbon quantum dots (P-BCQDs) with cyan fluorescence were synthesized via a hydrothermal approach, utilizing willow leaves as the carbon precursor and sodium pyrophosphate as a modifying agent. The morphology and optical properties of P-BCQDs were analyzed, and the results showed that P-BCQDs had a spherical structure, uniform dispersion, and particle size at 2.0±0.5 nm. Based on the principle that P-BCQDs bind to Hg2+ to burst the fluorescence, the P-BCQDs have an optimal time of 2 min for the detection of Hg2+, and the optimal pH = 7, with cHg2+ ranging from 0–20 μmol/L. The linear relationship was achieved with the detection limit of 9 nmol/L. The spiked recovery experiments were conducted in actual water samples. The recoveries exhibited a range of 95.0% to 105.0%, accompanied by Sr ranging from 1.6% to 2.8%, which indicated that the proposed methodology is applicable for the quantification of Hg2+.

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基于掺杂 P 的生物质碳量子点的选择性检测 Hg2+ 的荧光传感器

汞离子（Hg2+）造成的污染问题日益严重，因此建立一种适合精确识别 Hg2+ 的方法势在必行。本研究以柳树叶为碳前驱体，焦磷酸钠为改性剂，通过水热法合成了具有青色荧光的磷掺杂生物质碳量子点（P-BCQDs）。分析了P-BCQDs的形貌和光学性质，结果表明P-BCQDs具有球形结构，分散均匀，粒径为2.0±0.5 nm。根据P-BCQDs与Hg2+结合猝灭荧光的原理，P-BCQDs检测Hg2+的最佳时间为2 min，最佳pH=7，cHg2+范围为0-20 μmol/L。检测限为 9 nmol/L，达到线性关系。在实际水样中进行了加标回收实验。回收率为 95.0% 至 105.0%，Sr 为 1.6% 至 2.8%，表明该方法适用于 Hg2+ 的定量分析。

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来源期刊

Science of Advanced Materials NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

自引率

11.10%

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审稿时长

4.4 months