FLUORESCENT DETECTION OF NITROBENZENE VAPORS VIA FLUOROPHORE-DOPED POLYSTYRENE MATERIALS

Q4 Chemistry Analitika i Kontrol Pub Date : 2022-01-01 DOI:10.15826/analitika.2022.26.4.005
R. Chuvashov, D. Belyaev, K. Khokhlov, A. Baranova, M. Zen Eddin, I. Milman, E. Verbitskiy
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Abstract

Integration of fluorescent substances into polymeric matrices can improve their sensory properties and photostability. In this work, fluorescent materials based on fluorophore-doped polystyrene were obtained and characterized as sensors towards the ecotoxicant nitrobenzene in gas phase. Melamine-formaldehyde foam has been proposed as a permeable substrate for the sensor material deposition applicable for gas-phase measurements. The effect on sensor properties of the porous material surface obtained via Breath Figure pore generation technique was investigated. Limits of detection and calibration relationships of obtained materials towards nitrobenzene were evaluated by materials exposure to low concentrations of nitrobenzene vapors. The sorption properties of polystyrene allow the retention of the quencher near the fluorophore, leading to improved detection limits compared with pure fluorophores. Obtaining a porous surface of the polymer material by the Breath Figure technique increases the scale of its fluorescence quenching by vapors. Detection limits (down to 0.45 ppm) and detectable concentration ranges (0.5 - 371.6 ppm) have been experimentally established. The relative standard deviations of the fluorescent signal of polymer materials do not exceed 13.3 % for a number of concentrations in the detectable range. The applicability of the calibration linear relationship of the logarithm of the fluorescent signal on the logarithm of the nitrobenzene vapor concentration is shown. Fluorescence signal measurements were performed using the original sensor element and the luminescence detector employing an array of fluorescent materials. The developed device is simple in application, portable, automated, and in combination with the used polymeric materials allows detection of nitrobenzene vapors in concentrations 2.5 times lower than the maximum permissible level.
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荧光团掺杂聚苯乙烯材料对硝基苯蒸气的荧光检测
将荧光物质整合到聚合物基质中可以改善聚合物的感觉性能和光稳定性。在本工作中,获得了基于荧光团掺杂聚苯乙烯的荧光材料,并将其表征为对生态毒物硝基苯气相的传感器。三聚氰胺甲醛泡沫已被提出作为一种可渗透的衬底传感器材料沉积适用于气相测量。研究了呼吸图孔隙生成技术对多孔材料表面传感器性能的影响。通过暴露于低浓度硝基苯蒸汽的材料来评估所得材料对硝基苯的检出限和校准关系。聚苯乙烯的吸附特性允许猝灭剂在荧光团附近保留,从而与纯荧光团相比提高了检测限。通过呼吸图技术获得聚合物材料的多孔表面,增加了其荧光被蒸汽猝灭的规模。通过实验确定了检测限(低至0.45 ppm)和可检测浓度范围(0.5 - 371.6 ppm)。聚合物材料的荧光信号的相对标准偏差不超过13.3%的一些浓度在检测范围内。证明了荧光信号对数标定线性关系对硝基苯蒸气浓度对数的适用性。荧光信号测量使用原始传感器元件和采用荧光材料阵列的发光探测器进行。所开发的设备应用简单,便携,自动化,并且与使用的聚合物材料相结合,可以检测浓度低于最大允许水平2.5倍的硝基苯蒸汽。
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来源期刊
Analitika i Kontrol
Analitika i Kontrol Chemistry-Analytical Chemistry
CiteScore
0.90
自引率
0.00%
发文量
15
期刊介绍: Analitika i Kontrol is a scientific journal covering theoretical and applied aspects of analytical chemistry and analytical control, published since autumn 1997. Founder and publisher of the journal is the Ural Federal University named after the first President of Russia Boris Yeltsin (UrFU, Ekaterinburg).
期刊最新文献
Electrophoretic determination of carboxylic acids in blood serum with intracapillary concentration Fluorescence of anisotropic primary X-ray radiation Selection of the parameters of a multicapillary column for portable gas analyzers by Kovach indices Differentiation of oil samples by isomeric composition of paraffins using cluster analysis methods Important features of retention indices determination in reversed-phase high performance liquid chromatography
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