A vapochromic dye/graphene coated long-period fiber grating for benzene vapor sensing

A vapochromic dye/graphene coated long-period fiber grating for benzene vapor sensing

The exploration of new materials and devices for the identification and detection of toxic and carcinogenic benzene vapor is considerably significant due to its severe toxicity and carcinogenicity for human health. Herein the material and device engineering for benzene sensing was systematically per...

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Veröffentlicht in:Materials chemistry frontiers 2022-08, Vol.6 (17), p.2438-2446
Hauptverfasser: Dong, Lianghai, Zhao, Ke, Wu, Jieyun, Deng, Guowei, Tang, Chunlan, Zhang, Chun, Xu, Huajun, Wang, Qihui, Chen, Kaixin, Chiang, Kin Seng
Format: Artikel
Sprache:eng
Schlagworte:
Absorption spectra
Benzene
Carcinogenicity
Carcinogens
Density functional theory
Dyes
Graphene
Gratings (spectra)
Hydrocarbons
Refractivity
Spin coating
Steric hindrance
Thin films
Toxicity
Vapors
VOCs
Volatile organic compounds
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container_end_page 2446
container_issue 17
container_start_page 2438
container_title Materials chemistry frontiers
container_volume 6
creator Dong, Lianghai
Zhao, Ke
Wu, Jieyun
Deng, Guowei
Tang, Chunlan
Zhang, Chun
Xu, Huajun
Wang, Qihui
Chen, Kaixin
Chiang, Kin Seng
description The exploration of new materials and devices for the identification and detection of toxic and carcinogenic benzene vapor is considerably significant due to its severe toxicity and carcinogenicity for human health. Herein the material and device engineering for benzene sensing was systematically performed. A novel vapochromic dye IDTC1 with acceptor-π-acceptor was facilely synthesized and the vapochromism in the UV-vis absorption spectrum was studied. The spin-coated thin film IDTC1 showed a specific and reversible wavelength blue-shift by 44 nm in benzene vapor, indicating the benzene-induced vapochromic effect. For the quantitative detection of benzene vapor, a long-period fiber grating (LPFG) sensor coated with graphene/IDTC1 as sensitive fiber cladding was designed and fabricated. The benzene-induced vapochromism resulted in the refractive index change of the IDTC1 film on the fiber, leading to the resonant central wavelength change of LPFG. The LPFG showed a wide dynamic range (20 ppm to 23 000 ppm) and high sensitivity (0.36 pm ppm −1 ) of quantitative benzene sensing. Density functional theory calculation analysis indicated that the specific benzene-induced vapochromism might have resulted from the π-π stacking of aromatic benzenes and the steric hindrance effect on the conjugate electron-bridge. Our innovative study in material and device engineering implied the promising application of vapochromic dye IDTC1 for volatile organic compound sensing. A vapochromic dye was synthesized and coated on a long-period fiber grating sensor for specific benzene vapor sensing with an ultra-large dynamic range.
doi_str_mv 10.1039/d2qm00590e
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Density functional theory calculation analysis indicated that the specific benzene-induced vapochromism might have resulted from the π-π stacking of aromatic benzenes and the steric hindrance effect on the conjugate electron-bridge. Our innovative study in material and device engineering implied the promising application of vapochromic dye IDTC1 for volatile organic compound sensing. 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source Royal Society Of Chemistry Journals
subjects Absorption spectra
Benzene
Carcinogenicity
Carcinogens
Density functional theory
Dyes
Graphene
Gratings (spectra)
Hydrocarbons
Refractivity
Spin coating
Steric hindrance
Thin films
Toxicity
Vapors
VOCs
Volatile organic compounds
title A vapochromic dye/graphene coated long-period fiber grating for benzene vapor sensing
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