Abstract
AbstractMercury is currently widely used in industries which leads to various means of Hg(II) waste exposure and its accumulation in organisms will cause neurological damages. Thus, there is a great need for the design of probes or sensors with high sensitivity and selectivity for detecting and monitoring Hg(II) at physiological pH. Thus a novel and simple molecular probe P1 was prepared from 1,1′‐(1,3‐phenylene)‐bis(2,4‐pentanedionato) for sensing Hg(II) via chelation‐enhanced fluorescence (CHEF) mechanism. The probe indicated a selectively fluorescent response to Hg(II) in aqueous media excited by the ultraviolet light of 254 nm. The recognition mechanism was further studied by semi‐empirical AM1 and molecular mechanics MM+ methods in HyperChem 8.0. The calculation indicated a tetrahedron coordination geometry for Hg(II) and a chair‐like configuration for the total molecule. The fluorescent images sensing Hg(II) in living mouse fibroblast cells by the probe were obtained by fluorescence microscope.
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