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Functionalized Graphene Quantum Dots As a Fluorescent “Off–On” Nanosensor for Detection of Mercury and Ethyl Xanthate Publisher



Amini MH1, 2 ; Faridbod F1 ; Ganjali MR1, 3 ; Norouzi P1, 3
Authors

Source: Research on Chemical Intermediates Published:2017


Abstract

A simple, economical and efficient method is introduced for the functionalization of graphene quantum dots (GQDs). The GQDs was synthesized by the thermal pyrolysis of citric acid then mono-ethanolamine (MEA) was used to functionalize its surfaces. The resultant MEA-functionalized GQDs (MEA-GQDs) had remarkable fluorescence emissions with high quantum yield. The interaction studies showed that the fluorescence emissions of MEA-GQDs quenched selectively in the presence of Hg2+ ions due to the complex formation of Hg2+ ion with functional groups on MEA-GQDs. Further studies showed that, in the presence of ethyl xanthate ions (EtX−), the intensity was recovered because of the formation of a stronger complex between the thiol group of EtX− and Hg2+ ions and the dissociation of the previous weaker complex between MEA-GQDs and Hg2+ ions. In the optimal conditions, Hg2+ and EtX− ions could both be detected in the concentration ranges of 0.05–5 and 0.05–3 µM with limits of detection of 10 and 30 nM, respectively. The new MEA-GQDs-based nanosensor was successfully applied for the determination of Hg2+ and EtX− ions in spiked groundwater as a real sample with the satisfactory recovery of 97.6–101%. © 2017, Springer Science+Business Media B.V.
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