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http://dx.doi.org/10.1016/j.cap.2018.07.002

One-pot synthesis of highly fluorescent amino-functionalized graphene quantum dots for effective detection of copper ions  

Tam, Tran Van (School of Chemical Engineering, University of Ulsan)
Choi, Won Mook (School of Chemical Engineering, University of Ulsan)
Publication Information
Current Applied Physics / v.18, no.11, 2018 , pp. 1255-1260 More about this Journal
Abstract
In this work, a green and simple one-pot route was developed for the synthesis of highly fluorescent aminofunctionalized graphene quantum dots (a-GQDs) via hydrothermal process without any further modification or surface passivation. We synthesized the a-GQDs using glucose as the carbon source and ammonium as a functionalizing agent without the use of a strong acid, oxidant, or other toxic chemical reagent. The as-obtained aGQDs have a uniform size of 3-4 nm, high contents of amino groups, and show a bright green emission with high quantum yield of 32.8%. Furthermore, the a-GQDs show effective fluorescence quenching for $Cu^{2+}$ ions which can serve as effective fluorescent probe for the detection of $Cu^{2+}$. The fluorescent probe using the obtained aGQDs exhibits high sensitivity and selectivity toward $Cu^{2+}$ with the limit of detection as low as 5.6 nM. The mechanism of the $Cu^{2+}$ induced fluorescence quenching of a-GQDs can be attributed to the electron transfer by the formation of metal complex between $Cu^{2+}$ and the amino groups on the surface of a-GQDs. These results suggest great potential for the simple and green synthesis of functionalized GQDs and a practical sensing platform for $Cu^{2+}$ detection in environmental and biological applications.
Keywords
Graphene quantum dots; Copper ion; Sensor; Fluorescence;
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