实时监测神经毒剂模拟物:新型固态发射器,提高精度和可靠性。

Journal of hazardous materials Pub Date : 2024-10-05 Epub Date: 2024-08-13 DOI:10.1016/j.jhazmat.2024.135508
Anju Ranolia, Kiran, Priyanka, Rahul Kumar Dhaka, Jayant Sindhu
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引用次数: 0

摘要

化学神经毒剂是危险的化合物,恐怖分子可利用它们对公共安全和国家安全构成重大威胁。这些制剂的亲核性使其能够与人体内的乙酰胆碱酯酶发生作用,导致麻痹和潜在的致命后果。因此,开发稳健高效的检测方法对于防止滥用这些制剂至关重要。在本手稿中,(E)-12-(1-肼亚基乙基)苯并[f]吡啶并[1,2-a]吲哚-6,11-二酮(HBID)被开发成一种新型比色法和荧光探针,用于检测液相和气相中的特定化学神经毒剂模拟物。HBID 能与常见的神经毒剂模拟物氯磷酸二乙酯(DCP)快速反应,导致荧光强度显著增加。在优化条件下,HBID 具有灵敏度高、可回收性好、反应速度快和检测限低(0.092 µM)等特点。核磁共振和质谱研究表明,该反应涉及 HBID 与 DCP 的亲核加成,形成磷酸酯。此外,所开发的传感器还显示出粘度敏感的 AIE 现象,从而大大拓展了其在生物系统中的潜在应用。这种灵敏度可以精确检测和显示细胞环境中的粘度变化,使传感器成为研究复杂生物过程的宝贵工具。所开发的探针还能检测生物相关范围内的 pH 值(4-6)。在实际应用中,探针处理过的条带能实时有效地检测到二氯丙醇蒸气,并显示出明显的荧光反应。此外,该探针还具有检测土壤样本中是否存在二氯丙醇的强大潜力。
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Real time monitoring of nerve agent mimics: Novel solid state emitter for enhanced precision and reliability.

Chemical nerve agents are hazardous compounds that terrorists can exploit to pose a significant threat to public safety and national security. The nucleophilic behaviour of these agents enables their interaction with acetyl cholinesterase in the body, leading to paralysis and potentially fatal consequences. Therefore, developing robust and efficient detection methods for these agents is crucial for preventing their misuse. In this manuscript, (E)-12-(1-hydrazineylideneethyl)benzo[f]pyrido[1,2-a]indole-6,11-dione (HBID) is developed as a novel colorimetric and fluorometric probe for the detection of specific chemical nerve agent simulants in both liquid and vapor phase. HBID reacts rapidly with diethyl chlorophosphate (DCP), a common nerve agent simulant, leading to a significant increase in the fluorescence intensity. Under optimized conditions, HBID exhibits high sensitivity, good recyclability, fast response and low limit of detection (0.092 µM). NMR and mass spectral studies suggest that the reaction involves the nucleophilic addition of HBID to DCP, forming a phosphate ester. Additionally, the developed sensor demonstrates viscosity-sensitive AIE phenomena thus greatly expanding its potential applications in biological systems. This sensitivity enables precise detection and visualization of viscosity changes within cellular environments, making the sensor an invaluable tool for studying complex biological processes. The developed probe also detects pH within biologically relevant range (4-6). In practical applications, the probe-treated strips efficiently detected DCP vapor in real time, showing a noticeable fluorescence response. Further, the probe has a strong potential to detect the presence of DCP in the soil samples.

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