Compact device prototype for turn-on fluorescence detection of sarin based on reactive 4,4-diaryloxy-BODIPY derivatives†

IF 3.5 Q2 CHEMISTRY, ANALYTICAL
Lu Liu, Sheng Li, Wendan Luo, Jiashuang Yao, Taihong Liu, Molin Qin, Zhiyan Huang, Liping Ding and Yu Fang
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Abstract

Development of fluorescence indicators for efficient and accurate detection of lethal nerve agents has evoked extensive interest recently. Herein, we presented two spiranic 4,4-diaryloxy-BODIPY derivatives for efficient and fluorescence turn-on detection of sarin in solution media. A colorimetric mode featured the merits of obvious color changes from dark to greenish fluorescence under UV light. The generated new fluorescence emissions reached their maxima within several minutes and the peaks were assigned to the generated by-product oxo-BDP with a fluorescence quantum yield (ΦF) ∼ 20% in acetonitrile. The detection limits of two 4,4-diaryloxy-BODIPYs for a simulant diethylchlorophosphate (DCP) were determined to be 13.2 nM and 8.2 nM, respectively. The underlying sensing mechanism was clarified as the synergistic effect of 4,4-bond cleaving and fluorescence turn-on related to the photoinduced electron transfer process. Furthermore, a compact tubular sensor and a sensing platform prototype were fabricated properly. Superior detection results and further evaluation for real samples and simulants could be conducted at the sub-mM level on-site. Successful trials aid in understanding the structure–function relationship of 4,4-disubstituted BODIPY chromophores as well as the future development of a miniaturized device prototype for on-site detection of chemical warfare agents.

Abstract Image

基于活性 4,4-二叔丁氧基-BODIPY 衍生物的沙林荧光检测紧凑型设备原型
最近,开发用于高效、准确检测致命神经毒剂的荧光指示剂引起了广泛关注。在此,我们介绍了两种用于在溶液介质中高效荧光检测沙林的 4,4-二芳基-BODIPY 衍生物。比色模式的特点是在紫外光下荧光颜色由深到绿的明显变化。生成的新荧光发射在几分钟内达到最大值,峰为生成的副产物氧代-BDP,在乙腈中ΦF ~ 20%。两种 4,4-二羟基-BODIPY 对模拟物 DCP 的检测限分别为 13.2 nM 和 8.2 nM。其基本传感机制被明确为与光诱导电子转移过程有关的 4,4-键裂解和荧光开启的协同效应。此外,还制作了一个紧凑的管状传感器和一个传感平台原型。卓越的检测结果以及对真实样品和模拟物的进一步评估可以在亚毫克级现场进行。试验的成功有助于了解 4,4-二取代 BODIPY 发色团的结构-功能关系,以及未来用于现场检测化学战剂的微型装置原型的开发。
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来源期刊
CiteScore
2.30
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0.00%
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