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用于皮克级三硝基苯酚炸药检测的多发射双亲性共轭聚噻吩包覆碲化镉量子点及其在壳聚糖膜和纸基传感器与智能手机联用中的应用

Multiple Emitting Amphiphilic Conjugated Polythiophenes-Coated CdTe QDs for Picogram Detection of Trinitrophenol Explosive and Application Using Chitosan Film and Paper-Based Sensor Coupled with Smartphone.

作者信息

Tawfik Salah M, Sharipov Mirkomil, Kakhkhorov Sarvar, Elmasry Mohamed R, Lee Yong-Ill

机构信息

Anastro Laboratory Department of Chemistry Changwon National University Changwon 51140 Republic of Korea.

Egyptian Petroleum Research Institute (EPRI) Nasr City Cairo 11727 Egypt.

出版信息

Adv Sci (Weinh). 2018 Nov 12;6(2):1801467. doi: 10.1002/advs.201801467. eCollection 2019 Jan 23.

DOI:10.1002/advs.201801467
PMID:30693188
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6343090/
Abstract

Novel multiple emitting amphiphilic conjugated polythiophene-coated CdTe quantum dots for picogram level determination of the 2,4,6-trinitrophenol (TNP) explosive are developed. Four biocompatible sensors, cationic polythiophene nanohybrids (CPTQDs), nonionic polythiophene nanohybrids (NPTQDs), anionic polythiophene nanohybrids (APTQDs), and thiophene copolymer nanohybrids (TCPQDs), are designed using an in situ polymerization method, which shows highly enhanced fluorescence intensity and quantum yield (up to 78%). All sensors are investigated for nitroexplosive detection to provide a remarkable fluorescence quenching for TNP and the quenching efficiency reached 96% in the case of TCPQDs. The fluorescence of the sensors are quenched by TNP through inner filter effect, electrostatic, π-π, and hydrogen bonding interactions. Under optimal conditions, the detection limits of CPTQDs, NPTQDs, APTQDs, and TCPQDs are 2.56, 7.23, 4.12, and 0.56 × 10 m, respectively, within 60 s. More importantly, portable, cost effective, and simple to use paper strips and chitosan film are successfully applied to visually detect as little as 2.29 pg of TNP. The possibility of utilizing a smartphone with a color-scanning APP in the determination of TNP is also established. Moreover, the practical application of the developed sensors for TNP detection in tap and river water samples is described with satisfactory recoveries of 98.02-107.50%.

摘要

开发了用于皮克级2,4,6-三硝基苯酚(TNP)炸药测定的新型多发射两亲性共轭聚噻吩包覆的CdTe量子点。使用原位聚合法设计了四种生物相容性传感器,即阳离子聚噻吩纳米杂化物(CPTQDs)、非离子聚噻吩纳米杂化物(NPTQDs)、阴离子聚噻吩纳米杂化物(APTQDs)和噻吩共聚物纳米杂化物(TCPQDs),其显示出高度增强的荧光强度和量子产率(高达78%)。对所有传感器进行了硝基炸药检测研究,结果表明它们对TNP具有显著的荧光猝灭作用,其中TCPQDs的猝灭效率达到96%。传感器的荧光通过内滤效应、静电、π-π和氢键相互作用被TNP猝灭。在最佳条件下,CPTQDs、NPTQDs、APTQDs和TCPQDs在60 s内的检测限分别为2.56、7.23、4.12和0.56×10 m。更重要的是,便携式、经济高效且易于使用的纸条和壳聚糖膜成功应用于肉眼检测低至2.29 pg的TNP。还确定了利用带有颜色扫描应用程序的智能手机测定TNP的可能性。此外,还描述了所开发的传感器在自来水和河水样品中检测TNP的实际应用,回收率令人满意地达到98.02-107.50%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/37e1/6343090/102089701eb6/ADVS-6-1801467-g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/37e1/6343090/102089701eb6/ADVS-6-1801467-g006.jpg

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