A novel synthesis of graphene quantum dots via thermal treatment of crude graphite oxide in a dry and alkaline condition, and their application in uranyl detection

A novel synthesis of graphene quantum dots via thermal treatment of crude graphite oxide in a dry and alkaline condition, and their application in uranyl detection

In this article, a novel method to synthesize graphene quantum dots was developed via thermal treatment of crude graphite oxide (GO) in a dry and alkaline condition to cut the crude GO sheets into small graphene quantum dots (named as aGQDs). The aGQDs are nano-scale reduced graphene oxide pieces wi...

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Bibliographic Details
Main Authors: Shanli Yang, Yingru Li, Shaofei Wang, Jingsong Xu, Lang Shao, Tao Gai, Hao Tang, Yiming Ren, Mingfu Chu, Bianyuan Xia
Format: Article
Language:English
Published: Elsevier 2020-09-01
Series:Heliyon
Subjects:
Analytical chemistry
Environmental science
Materials science
Graphene dots
Uranyl
Detection
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844020313773
Description
Summary:In this article, a novel method to synthesize graphene quantum dots was developed via thermal treatment of crude graphite oxide (GO) in a dry and alkaline condition to cut the crude GO sheets into small graphene quantum dots (named as aGQDs). The aGQDs are nano-scale reduced graphene oxide pieces with the sizes around 5–10 nm. The aGQDs could disperse in water for their richment of oxygen-containing groups. The fluorescence properties were carefully investigated. The aGQDS aqueous solution shows a bright yellow-green fluorescence under the UV illumination. Besides, the uranyl ions show a strong fluorescence quenching effect on the a aGQD aqueous solution even at a low concentration (~10−7 M) compared with other common ions in natural water-body, which makes that these aGQDs could be applied as a chemosensor for detection of uranyl ions with good sensitivity and selectivity.
ISSN:2405-8440

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