A novel hydroxyl-containing polyimide as a colorimetric and ratiometric chemosensor for the reversible detection of fluoride ions

A novel hydroxyl-containing polyimide ( PI-OH ) has been successfully synthesized and subsequently used as a new colorimetric and ratiometric chemosensor for the detection of F − with high selectivity and a fast response time. The ratiometric absorbance changes of the chemosensor PI-OH in DMSO solut...

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Veröffentlicht in:Polymer chemistry 2019-03, Vol.1 (11), p.1399-146
Hauptverfasser: Wu, Yancheng, Shi, Chuqi, Chen, Zhigeng, Zhou, Yubin, Liu, Shumei, Zhao, Jianqing
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container_end_page 146
container_issue 11
container_start_page 1399
container_title Polymer chemistry
container_volume 1
creator Wu, Yancheng
Shi, Chuqi
Chen, Zhigeng
Zhou, Yubin
Liu, Shumei
Zhao, Jianqing
description A novel hydroxyl-containing polyimide ( PI-OH ) has been successfully synthesized and subsequently used as a new colorimetric and ratiometric chemosensor for the detection of F − with high selectivity and a fast response time. The ratiometric absorbance changes of the chemosensor PI-OH in DMSO solution show a linear response to F − in the concentration range of 0-0.50 mM with a detection limit of 1.79 μM, which provides a quantitative method for F − detection. 1 H NMR titration and DFT calculation studies confirm the F − sensing mechanism involves H-bond interactions and subsequent deprotonation in the chemosensor. Moreover, the chemosensor PI-OH in DMSO solution can be reversed many times and applied to the visual detection of F − . Finally, PI-OH film has been fabricated for real-time visualization of F − with high selectivity and sensitivity. The F − bonded to the PI-OH film can be easily removed by immersing it in acidic solution to recover the sensing ability to F − . X-ray photoelectron spectroscopy and energy dispersive spectroscopy analysis indicate that hydroxyl groups in the PI-OH film can bond to F − and the bonded F − can be removed quantitatively. This work provides not only a novel PI film-based sensor device for the visual and reversible detection of F − with high-efficiency, but also a promising F − extractor. A novel hydroxyl-containing polyimide film has been designed and fabricated as a chemosensor for the real-time visualization of F − with high selectivity and sensitivity.
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The ratiometric absorbance changes of the chemosensor PI-OH in DMSO solution show a linear response to F − in the concentration range of 0-0.50 mM with a detection limit of 1.79 μM, which provides a quantitative method for F − detection. 1 H NMR titration and DFT calculation studies confirm the F − sensing mechanism involves H-bond interactions and subsequent deprotonation in the chemosensor. Moreover, the chemosensor PI-OH in DMSO solution can be reversed many times and applied to the visual detection of F − . Finally, PI-OH film has been fabricated for real-time visualization of F − with high selectivity and sensitivity. The F − bonded to the PI-OH film can be easily removed by immersing it in acidic solution to recover the sensing ability to F − . X-ray photoelectron spectroscopy and energy dispersive spectroscopy analysis indicate that hydroxyl groups in the PI-OH film can bond to F − and the bonded F − can be removed quantitatively. This work provides not only a novel PI film-based sensor device for the visual and reversible detection of F − with high-efficiency, but also a promising F − extractor. 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This work provides not only a novel PI film-based sensor device for the visual and reversible detection of F − with high-efficiency, but also a promising F − extractor. 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The ratiometric absorbance changes of the chemosensor PI-OH in DMSO solution show a linear response to F − in the concentration range of 0-0.50 mM with a detection limit of 1.79 μM, which provides a quantitative method for F − detection. 1 H NMR titration and DFT calculation studies confirm the F − sensing mechanism involves H-bond interactions and subsequent deprotonation in the chemosensor. Moreover, the chemosensor PI-OH in DMSO solution can be reversed many times and applied to the visual detection of F − . Finally, PI-OH film has been fabricated for real-time visualization of F − with high selectivity and sensitivity. The F − bonded to the PI-OH film can be easily removed by immersing it in acidic solution to recover the sensing ability to F − . X-ray photoelectron spectroscopy and energy dispersive spectroscopy analysis indicate that hydroxyl groups in the PI-OH film can bond to F − and the bonded F − can be removed quantitatively. This work provides not only a novel PI film-based sensor device for the visual and reversible detection of F − with high-efficiency, but also a promising F − extractor. A novel hydroxyl-containing polyimide film has been designed and fabricated as a chemosensor for the real-time visualization of F − with high selectivity and sensitivity.</abstract><cop>Cambridge</cop><pub>Royal Society of Chemistry</pub><doi>10.1039/c8py01697f</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0002-3211-1691</orcidid><orcidid>https://orcid.org/0000-0002-9085-483X</orcidid></addata></record>
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source Royal Society Of Chemistry Journals 2008-
subjects Chemical sensors
Chemical synthesis
Chemoreceptors
Colorimetry
Hydroxyl groups
Infrared spectroscopy
Mathematical analysis
NMR
Nuclear magnetic resonance
Photoelectrons
Polymer chemistry
Response time
Selectivity
Spectrum analysis
Time dependence
Titration
title A novel hydroxyl-containing polyimide as a colorimetric and ratiometric chemosensor for the reversible detection of fluoride ions
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