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- Title
A versatile ratiometric nanosensing approach for sensitive and accurate detection of Hg and biological thiols based on new fluorescent carbon quantum dots.
- Authors
Fu, Huili; Ji, Zhongyin; Chen, Xuejie; Cheng, Anwei; Liu, Shucheng; Gong, Peiwei; Li, Guoliang; Chen, Guang; Sun, Zhiwei; Zhao, Xianen; Cheng, Feng; You, Jinmao
- Abstract
Herein, we first reported a facile synthesis method for fabrication of highly photoluminescent carbon quantum dots (CQDs) using sodium alginate as the carbon source and histidine as both the nitrogen source and functional monomer by one-pot hydrothermal synthesis. The as-prepared CQDs gave a high quantum yield of 32%. By employing the new CQDs and rhodamine B (RhB), we demonstrated a simple, facile, sensitive, and accurate ratiometric sensor for detection of Hg and biological thiols. The photoluminescence of CQDs in the ratiometric sensor can be selectively and intensively suppressed by Hg due to strong electrostatic interaction between the surface functional groups of the CQDs and Hg. When glutathione (GSH) was introduced into the 'Turn Off' CQDs-RhB-Hg sensing system, the fluorescence of the CQDs can be recovered rapidly due to the stronger affinity between thiol and Hg, while the fluorescence of the RhB remained constant in this sensing process. Based on the above principle, the ratiometric strategy for detecting Hg and GSH can be achieved readily, and gives satisfactory limit of detections (LODs) of 30 and 20 nM for Hg and GSH, respectively. The dual-emission fluorescent CQDs-RhB sensor does not need the complicated molecular design and the synthesis of dual-emission fluorophores. Meanwhile, the feasibility of the proposed method for analysis of water samples, food samples, and biological samples (plasma from mice oxidative stress study) was investigated. The developed ratiometric nanosensor is proven to be facile, with less sample consumption, rapid, lost cost, highly sensitive, and very selective for Hg and biological thiol detection, which offers a new approach for environmental, food, and biological analysis.
- Subjects
GLUTATHIONE; FLUORESCENCE; QUANTUM dots; HISTIDINE; RHODAMINES
- Publication
Analytical & Bioanalytical Chemistry, 2017, Vol 409, Issue 9, p2373
- ISSN
1618-2642
- Publication type
Academic Journal
- DOI
10.1007/s00216-017-0183-3