A new Eosin Y-based ‘turnon’ fluorescent sensor for ratiometric sensing of toxic mercury ion (Hg2+) offering unaided eye detection and its antibacterial activity

A unique fluorescent molecule (ND-S) was obtained from Eosin Y in two simple yet high yielding steps (1). ND-S has special metal ion sensing ability, such that it can selectively detect toxic Hg2+ present in very low concentration in aqueous solutions in the presence of other competing metal ions. The host-guest complexation is ratiometric and is associated with significant increase in fluorescence during the process. Isothermal titration calorimetry (ITC) experiments provided thermodynamic parameters related to interaction between ND-S and Hg2+. Using inductively coupled plasma mass spectrometry (ICP-MS), the Hg2+(aq) removal efficiency of ND-S was estimated to be 99.88%. Appreciable limit of detection (LOD = 7.4 nM) was observed. Other competing ions did not interfere with the sensing of Hg2+ by ND-S. The effects of external stimuli (temperature and pH) were studied. Besides, the complex (ND-M), formed by 1:1 coordination of ND-S and Hg2+ was found to be effective against the survival of Gram-positive bacteria (S. aureus and B. subtilis) with a high selectivity index. Moreover, bacterial cell death mechanism was studied systematically. Overall, we have shown the transformation of a toxic species (Hg2+), extracted from polluted water by a biocompatible sensor (ND-S), into an effective and potent antibacterial agent (ND-M). Mercuric (Hg2+) ions are highly mobile and non-biodegradable water pollutants that biomagnify and adversely affect human health, even in small doses. Herein, a new molecular sensor (ND-S) is synthesized that is capable of sensing and removing Hg2+ ions from water with high selectivity, sensitivity, efficiency, and recyclability. Overall, ND-S is an Eosin Y-based inexpensive sensor that is useful for detection of Hg2+ (a health hazard). The resultant complex (ND-M) possesses superior ability to destroy human pathogens (S. aureus and B. subtilis) that are frequently present in water sources.