Abstract
We report on a fluorescence resonance energy transfer (FRET)-based ratiometric sensor for the detection of Hg(II) ion. First, silica nanoparticles were labeled with a hydrophobic fluorescent nitrobenzoxadiazolyl dye which acts as a FRET donor. A spirolactam rhodamine was then covalently linked to the surface of the silica particles. Exposure of the nanoparticles to Hg(II) in water induced a ring-opening reaction of the spirolactam rhodamine moieties, leading to the formation of a fluorescent derivative that can serve as the FRET acceptor. Ratiometric sensing of Hg(II) was accomplished by ratioing the fluorescence intensities at 520 nm and 578 nm. The average decay time for the donor decreases from 9.09 ns to 7.37 ns upon addition of Hg(II), which proves the occurrence of a FRET process. The detection limit of the assay is 100 nM (ca. 20 ppb). The sensor also exhibits a large Stokes shift (>150 nm) which can eliminate backscattering effects of excitation light.
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