Synthesis of random copolymers of styrene and arylamino substituted styrenes and their sensitivities towards nitroaromatics

Random copolymers of styrene and substituted styrenes bearing arylamino substituents as fluorophore units have been obtained. Their photophysical properties have been investigated by measuring absorption and emission spectra as in solutions as solid‐state. All copolymers proved to possess absolute q...

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Bibliographic Details
Published in:Journal of applied polymer science 2024-05, Vol.141 (19), p.n/a
Main Authors: Eddin, Mohamad Zen, Zhilina, Ekaterina F., Chuvashov, Roman D., Dubovik, Alyona I., Mekhaev, Alexandr V., Chistyakov, Konstantin A., Pervova, Marina G., Kodess, Mikhail I., Ezhikova, Marina A., Baranova, Anna A., Khokhlov, Konstantin O., Rusinov, Gennady L., Verbitskiy, Egor V., Charushin, Valery N.
Format: Article
Language:English
Subjects:
Chemical synthesis
Copolymers
detection of nitroaromatic explosives
Dichloromethane
Emission analysis
Emission spectra
Explosives detection
Fluorescence
fluorescence chemosensors
fluorescence quenching
Nitrobenzene
pendant copolymers
Styrenes
Substitutes
Vapor phases
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Summary:Random copolymers of styrene and substituted styrenes bearing arylamino substituents as fluorophore units have been obtained. Their photophysical properties have been investigated by measuring absorption and emission spectra as in solutions as solid‐state. All copolymers proved to possess absolute quantum yields up to 0.39 in solution and up to 0.05 in solid‐state, depending on their fluorophore substituents. Fluorescence studies have shown that these copolymers show a highly sensitive response towards a diversity of nitroaromatic compounds, both in solutions and in a vapor phase. The detection limits for these compounds towards model nitroaromatic explosives in dichloromethane solution proved to be in the range from 10−6 to 10−7 mol/L. The fluorescent materials prepared by electrospinning of synthesized copolymers have been evaluated as sensor materials for detecting nitrobenzene vapor for our hand‐made sniffer with detection limits of 0.5 ppm during 100‐s exposure to the vapor.
ISSN:0021-8995
1097-4628
DOI:10.1002/app.55355