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Abstract
Furocoumarin (furo[3,2-c]coumarin) derivatives have been synthesized from single step, high yielding (82–92%) chemistry involving a 4-hydroxycoumarin 4 + 1 cycloaddition reaction. They are characterized by FTIR, 1H-NMR, and, for the first time, a comprehensive UV-Vis and fluorescence spectroscopy study has been carried out to determine if these compounds can serve as useful sensors. Based on the fluorescence data, the most promising furocoumarin derivative (2-(cyclohexylamino)-3-phenyl-4H-furo[3,2-c]chromen-4-one, FH), exhibits strong fluorescence (ФF = 0.48) with long fluorescence lifetime (5.6 ns) and large Stokes’ shift, suggesting FH could be used as a novel fluorescent chemosensor. FH exhibits a highly selective, sensitive and instant turn-off fluorescence response to Fe3+ over other metal ions which was attributed to a charge transfer mechanism. Selectivity was demonstrated against 13 other competing metal ions (Na+, K+, Mg2+, Ca2+, Mn2+, Fe2+, Al3+, Ni2+, Cu2+, Zn2+, Co2+, Pb2+ and Ru3+) and aqueous compatibility was demonstrated in 10% MeOH-H2O solution. The FH sensor coordinates Fe3+ in a 1:2 stoichiometry with a binding constant, Ka = 5.25 × 103 M−1. This novel sensor has a limit of detection of 1.93 µM, below that of the US environmental protection agency guidelines (5.37 µM), with a linear dynamic range of ~28 (~2–30 µM) and an R2 value of 0.9975. As an exemplar application we demonstrate the potential of this sensor for the rapid measurement of Fe3+ in mineral and tap water samples demonstrating the real-world application of FH as a “turn off” fluorescence sensor.
Highlights
Furocoumarin derivatives have been synthesized from single step, high yielding (82–92%) chemistry involving a 4-hydroxycoumarin 4 + 1 cycloaddition reaction
The structures of the furocoumarin derivatives (FH, FCl, and FNO2) were characterized by 1H NMR and FTIR. These results are in good agreement with the chemical structures for furocoumarin from the literature[18,19]
Chloro- in FCl is a weaker electron withdrawing group (EWG) than -NO2 in FNO2, the chloro- substituent can donate through the aromatic ring, which has a high electron density, as the atom is enriched with non-bonding electrons
Summary
Furocoumarin (furo[3,2-c]coumarin) derivatives have been synthesized from single step, high yielding (82–92%) chemistry involving a 4-hydroxycoumarin 4 + 1 cycloaddition reaction They are characterized by FTIR, 1H-NMR, and, for the first time, a comprehensive UV-Vis and fluorescence spectroscopy study has been carried out to determine if these compounds can serve as useful sensors. The academic literature contains an abundance of information regarding the synthesis and bioactivities of coumarin derivatives[1,2,3] Research involving this ring system has been applied to a wide range of areas including pharmaceuticals[4], optical brighteners[5], fluorescents[6,7,8,9,10,11,12,13,14] and laser dyes[15]. In the USA, the environmental protection agency (EPA) guidelines state that the maximum level of Fe3+ in drinking water is 5.37 μM56, and in the UK, the drinking water inspectorate (DWI) has set a maximum concentration limit for total iron at 200 μg/L57
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