Abstract
Carbon dots doped with N/Ce, N/Eu and N/Tb were prepared by a microwave based hydrothermal technique. The fluorescence of the N/Ce co-doped carbon dots (CDN/Ce) is strongest. They have excitation/emission maxima at 340/441nm. CDN/Ce was characterized by scanning electron microscopy, infrared and fluorescence spectroscopy. On addition of the nucleic acid aptamer (Apt) against arsenic(III) in pH7 solution, the blue fluorescence of the doped carbon dots is partially quenched due to electrostatic interaction. On addition of As(III), it will bind to the aptamer, and the carbon dots are released. Hence, fluorescence becomes gradually restored. In addition, the resonance Rayleigh scattering signal (measured at 340nm) is reduced. This dual-mode assay works in the 0.5-5.8μg·L-1 As(III) concentration range and has a 0.2μg·L-1 detection limit. Graphical abstract Schematic representation of fluorometric and resonance Rayleigh scattering dual mode analysis of As3+ by usingcoupled Apt and CDN/Ce probes. Apt:Aptamer. CD:Carbon dot. Flu:Fluorescence. RRS:Resonance Rayleigh scattering.
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