A coumarin derived turn ‘off–on-off’ probe for selective sequential monitoring of Al3+ and Cu2+ ions with bio-imaging application

Abstract

Herein, a coumarin-based chemosensor (E)-N'-(1-(2-oxo-2H-chromen-3-yl)ethylidene) thiophene-2-carbohydrazide (ACT) has been synthesized and thoroughly characterized by using various spectroscopic techniques. The molecular structure of the probe has been confirmed by single crystal X-ray diffraction technique. Hirshfeld surface analysis has also been carried out to investigate weaker interactions in the probe molecule. ACT shows a highly selective enhanced fluorometric response towards Al3+ in ethanol among different competing cations. Upon interaction with Al3+, a new complex ACT-Al3+ is formed which displays a strong yellow fluorescence due to chelation enhanced fluorescence process (CHEF). Furthermore, in situACT-Al3+ complex is exploited for sequential recognition of Cu2+ with fluorescence turn-off via paramagnetic quenching mechanism among different competing cations. This study presents an exceptionally low detection limits of ACT for Al3+ and Cu2+ ions (2.33 × 10−11 and 1.96 × 10−11 M, respectively). Furthermore, the binding constants of ACT for Al3+ and Cu2+ were found to be 7.97 × 104 and 9.79 × 104 M−1, respectively. The binding mechanism has been verified by 1H NMR titration and DFT calculations. Sensing behaviour of ACT towards Al3+ and Cu2+ have also been exploited in the development of paper strip kit and intracellular application in 3rd instar larvae of Drosophila.