Fluorogenic mercury ion sensor based on pyrene-amino mercapto thiadiazole unit.

A highly selective and sensitive determination of Hg2+ in water samples with bioimaging applications in living cells using a fluorogenic pyrene-amino mercapto thiadiazole (PYAMT) probe is described. The probe PYAMT exhibited three absorption peaks at 333, 348 and 394nm and emission maxima at 378, 388 and 397nm (λex =348nm). It showed significant fluorescent quenching (96%) with I/I0 =0.051 upon the addition of 2.5μM Hg2+ ion in CH3 CN(ACN):H2 O (1:1, v/v; pH 7.2), whereas its fluorescence remained unaltered in the presence of other metal ions. The quenching phenomenon is attributed to the heavy atom effect of Hg2+ ion followed by electron transfer. The fluorescence intensity decreased linearly against a wide range from 100nM to 2.5μM Hg2+ (R2 =0.9937) with a limit of detection as low as 0.35nM (S/N=3). The binding stoichiometry ratio of PYAMT-Hg2+ is proved to be 1:1 by fluorescence and DFT measurements. The sensor possesses high association constant with Hg2+ ion in the order of 9.08×105 M-1 and it is also capable of reversibly detecting cysteine with OFF-ON mechanism. Finally, the proposed method is successfully applied to selectively detect Hg2+ ion in real water samples and bioimaging studies in live cells.