A reversible eugenol derived colorimetric and fluorescence "turn-off" probe for Fe and Pb ions detection.

A simple and robust colorimetric and fluorescent eugenol-based chemical sensor, namely, (E)-N'-(5-allyl-2-hydroxy-3-methoxybenzylidene)-2-hydroxybenzohydrazide (EABH) was synthesized and characterized using spectroscopic techniques such as, NMR (H and C) and mass spectra. The chemosensor shows dual behavior for the colorimetric detection of Fe and fluorometric detection of Pb ions with high sensitivity and selectivity towards both the ions. The EABH detects Fe by "naked eye" color change from lime yellow to brown and displayed fluorescence "Turn-off" response to Pb ion. The binding stoichiometry of EABH based on absorption (for Fe) and fluorescence (for Pb) data along with mass spectral studies indicated 1:2 binding of metal to EABH ratio, which is further verified by Job's plot measurement. Furthermore, the detection limits for Fe and Pb ions were found to be 0.166 µM and 0.095 µM, respectively proving its promising sensitivity. On the other hand, live cell imaging experiments showed that EABH has capability of penetrating through the cell membrane and exhibit significant response to the intracellular interactions when Fe and Pb are introduced in living cells, which reveals its effectiveness in the bioimaging applications. Furthermore, the fabricated chemical sensor EABH was successfully employed for cotton swab and test-paper applications. It is noteworthy that the developed sensor for the detection of Fe and Pb using colorimetric and fluorimetric assays acts as a reliable, cost-effective method compared to other conventional methods. In addition, computational studies such as Frontier Molecular Orbitals (FMOs) and Molecular Electrostatic Potential (MEP) provided a significant information on the interaction sites within EABH, giving profound insights about the chemical reactivity and various physical parameters.