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基于嵌入二氧化硅的 FeSe 量子点的分子印迹荧光纳米传感器的研制及其对氯氟氰菊酯的快速光学传感应用。

Development and application of a novel fluorescent nanosensor based on FeSe quantum dots embedded silica molecularly imprinted polymer for the rapid optosensing of cyfluthrin.

机构信息

School of Marine Sciences, Ningbo University, 818 Fenghua Road, Ningbo 315211, PR China.

Ningbo Academy of Oceanology and Fishery, Ningbo 315012, PR China.

出版信息

Biosens Bioelectron. 2018 Jan 15;99:268-273. doi: 10.1016/j.bios.2017.07.071. Epub 2017 Jul 29.

DOI:10.1016/j.bios.2017.07.071
PMID:28778030
Abstract

A novel molecularly imprinted silica layer appended to FeSe quantum dots (MIP-FeSe-QDs) was fabricated and utilized as a recognition element to develop a selective and sensitive fluorescent nanosensor for cyfluthrin (CYF) determination. The MIP-FeSe-QDs were characterized by fluorescence spectrometry, scanning electron microscopy, transmission electron microscopy, and Fourier transform infrared spectroscopy. Excellent selectivity and high sensitivity of MIP-FeSe-QDs to CYF molecules were observed based on the fluorescence quenching of FeSe-QDs. Under optimal conditions, a good linear relationship was found between fluorescence quenching effect and increased CYF concentration within 0.010-0.20mg/L, with a correlation coefficient of 0.9911. The practicality of the developed sensor method for CYF detection in fish and sediment samples was further validated. Good recoveries ranging from 88.0% to 113.9% with<6.8% relative standard deviations were obtained. The detection limits of CYF in sediment and fish samples were 1.3 and 1.0µg/kg, respectively. This study established a novel, rapid fluorescent nanosensor detection method based on MIP-QDs for successfully analyzing CYF in fish and sediment samples.

摘要

一种新型的分子印迹二氧化硅层被附加到 FeSe 量子点上(MIP-FeSe-QDs),并被用作识别元件,开发了一种用于检测氯氟氰菊酯(CYF)的选择性和灵敏的荧光纳米传感器。通过荧光光谱法、扫描电子显微镜、透射电子显微镜和傅里叶变换红外光谱对 MIP-FeSe-QDs 进行了表征。观察到 MIP-FeSe-QDs 对 CYF 分子具有优异的选择性和高灵敏度,这是基于 FeSe-QDs 的荧光猝灭。在最佳条件下,在 0.010-0.20mg/L 范围内,荧光猝灭效应与 CYF 浓度的增加之间存在良好的线性关系,相关系数为 0.9911。进一步验证了该传感器方法在鱼类和沉积物样品中检测 CYF 的实用性。在<6.8%的相对标准偏差范围内,回收率在 88.0%到 113.9%之间。CYF 在沉积物和鱼类样品中的检测限分别为 1.3 和 1.0μg/kg。本研究建立了一种基于 MIP-QDs 的新型快速荧光纳米传感器检测方法,成功分析了鱼类和沉积物样品中的 CYF。

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