Turn-on detection of Al3+ ions using quinoline-based tripodal probe: mechanistic investigation and live cell imaging applications

In this study, an easily synthesizable Schiff base probe TQSB having a quinoline fluorophore is demonstrated as a fluorescent and colorimetric turn-on sensor for Al3+ ions in a semi-aqueous medium (CH3CN/water; 4 : 1; v/v). Absorption, emission and colorimetric studies clearly indicated that TQSB ex...

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Veröffentlicht in:	Analytical methods 2024-07, Vol.16 (29), p.5022-5031
Hauptverfasser:	Goswami, Nidhi, Naithani, Sudhanshu, Goswami, Tapas, Kumar, Pankaj, Kumar, Pramod, Kumar, Sushil
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Aqueous solutions Chelation Chemical synthesis Colorimetry Cost analysis Cytotoxicity Density functional theory Filter paper Fluorescence Fluorescence microscopy Imines Ions Magnetic resonance spectroscopy Mass spectrometry Mass spectroscopy NMR spectroscopy Quinoline
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container_issue	29
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container_title	Analytical methods
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creator	Goswami, Nidhi Naithani, Sudhanshu Goswami, Tapas Kumar, Pankaj Kumar, Pramod Kumar, Sushil
description	In this study, an easily synthesizable Schiff base probe TQSB having a quinoline fluorophore is demonstrated as a fluorescent and colorimetric turn-on sensor for Al3+ ions in a semi-aqueous medium (CH3CN/water; 4 : 1; v/v). Absorption, emission and colorimetric studies clearly indicated that TQSB exhibited a high selectivity toward Al3+, as observed from its excellent binding constant (Kb = 3.8 × 106 M−1) and detection limit (7.0 nM) values. TQSB alone was almost non-fluorescent in nature; however, addition of Al3+ induced intense fluorescence at 414 nm most probably due to combined CHEF (chelation-enhanced fluorescence) and restricted PET effects. The sensing mechanism was established via Job's plot, NMR spectroscopy, ESI-mass spectrometry, and density functional theory (DFT) analyses. Furthermore, to evaluate the applied potential of probe TQSB, its sensing ability was studied in real samples such as soil samples and Al3+-containing Digene gastric tablets as well as on low-cost filter paper strips. Fluorescence microscopy imaging experiments further revealed that TQSB can be used as an effective probe to detect intracellular Al3+ in live cells with no cytotoxicity.
doi_str_mv	10.1039/d4ay00761a
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4 : 1; v/v). Absorption, emission and colorimetric studies clearly indicated that TQSB exhibited a high selectivity toward Al3+, as observed from its excellent binding constant (Kb = 3.8 × 106 M−1) and detection limit (7.0 nM) values. TQSB alone was almost non-fluorescent in nature; however, addition of Al3+ induced intense fluorescence at 414 nm most probably due to combined CHEF (chelation-enhanced fluorescence) and restricted PET effects. The sensing mechanism was established via Job's plot, NMR spectroscopy, ESI-mass spectrometry, and density functional theory (DFT) analyses. Furthermore, to evaluate the applied potential of probe TQSB, its sensing ability was studied in real samples such as soil samples and Al3+-containing Digene gastric tablets as well as on low-cost filter paper strips. 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subjects	Aluminum Aqueous solutions Chelation Chemical synthesis Colorimetry Cost analysis Cytotoxicity Density functional theory Filter paper Fluorescence Fluorescence microscopy Imines Ions Magnetic resonance spectroscopy Mass spectrometry Mass spectroscopy NMR spectroscopy Quinoline
title	Turn-on detection of Al3+ ions using quinoline-based tripodal probe: mechanistic investigation and live cell imaging applications
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