A benzoxazole-based fluorescent ‘off-on-off’ probe for cascade recognition of cyanide and Fe3+ ions

A benzoxazole-based (NT) photoluminescence 'off–on-off' probe has been introduced for cascade detection of cyanide (CN–) and iron (III) (Fe3+) ions, respectively with detection limits 23 nM and 5.70 μM, respectively, much lower than the permissible maximum contamination level predicted by...

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Bibliographic Details
Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2023-08, Vol.442, p.114807, Article 114807
Main Authors: Tohora, Najmin, Mahato, Manas, Sultana, Tuhina, Ahamed, Sabbir, Ghanta, Susanta, Kumar Das, Sudhir
Format: Article
Language:English
Subjects:
Benzoxazole
Cyanide ion
ESIPT
Fluorosensor
ICT
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Summary:A benzoxazole-based (NT) photoluminescence 'off–on-off' probe has been introduced for cascade detection of cyanide (CN–) and iron (III) (Fe3+) ions, respectively with detection limits 23 nM and 5.70 μM, respectively, much lower than the permissible maximum contamination level predicted by Environmental Protection Agency (EPA). [Display omitted] •Introduced a benzoxazole-based probe (NT) for sequential detection of CN– and Fe3+ ions.•The detection thresholds for CN– and Fe3+ ions are estimated to be 23 nM and 5.70 μM, respectively.•Paper strips based test kit has been fabricated for on-site detection.•Utilized for real sample analysis. This article introduced a benzoxazole-based (NT) photoluminescence 'off–on-off' probe for sequential detection of cyanide (CN–) and iron (III) (Fe3+) ions, respectively in H2O/DMSO (1:1 v/v) medium. Probe NT quickly produced a strong blue fluorescence due to the introduction of CN– ions, found to be 1:1 binding stoichiometry, mainly due to the disruption of excited state intramolecular proton transfer (ESIPT) because of deprotonation of hydroxy (–OH) functional group present in the salicylimine moiety. The resulting deprotonated NT is further employed for detecting Fe3+ ions by turn-off fluorescence response and binding affinity found in the 1:3 stoichiometry ratio. The detection thresholds for CN– and Fe3+ ions are estimated to be 23 nM and 5.70 μM, respectively, much lower than the permissible maximum contamination level predicted by Environmental Protection Agency (EPA). For the practical utilization of our fluorescence sensor NT as an on-site detector, we have demonstrated a paper strip-based test kit experiment to quantify traces of CN– ions in stocks of related analytes. The ability of NT and deprotonated NT to detect CN– and Fe3+ ions, respectively, demonstrated that it might be a sensing tool for real sample analysis.
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2023.114807