A multilevel fluorometric biosensor based on boric acid embedded in carbon dots to detect intracellular and serum glucose

Diabetes mellitus is one of the most common chronic diseases, and blood glucose monitoring benefits for diagnosis and management of diabetic mellitus. In this paper, a multimodal photoluminescence (PL) bio-platform, R-CDs/B2O3, with solid-state fluorescence, was developed by dispersing Rhodamine B c...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2022-01, Vol.350, p.130898, Article 130898
Main Authors: Yu, Qinghua, Jiang, Junhao, Chen, Zhiqiong, Han, Chuyi, Zhang, Xianming, Yang, Shiyu, Zhou, Ping, Deng, Tao, Yu, Chao
Format: Article
Language:English
Subjects:
Assaying
Biosensors
Blood
Boric acid
Boron oxides
Carbon dots
Diabetes
Diabetes mellitus
Fluorescence
Fluorescence sensor
Glucose
Glucose monitoring
Monitoring
Photoluminescence
R&D
Research & development
Rhodamine
Test gel
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Summary:Diabetes mellitus is one of the most common chronic diseases, and blood glucose monitoring benefits for diagnosis and management of diabetic mellitus. In this paper, a multimodal photoluminescence (PL) bio-platform, R-CDs/B2O3, with solid-state fluorescence, was developed by dispersing Rhodamine B carbon dots (R-CDs) in the matrix of boric acid (BA) as a simple, cheap agent for the visual assay of intracellular and serum glucose concentration, which was based on BA can specially bound with 1, 2-diol of glucose. The good linear relationship between the PL spectra of the R-CDs/B2O3 and glucose concentration indicated that R-CDs/B2O3 could dynamically monitor glucose concentration in vitro. Furthermore, the fluorescent color variations of R-CDs/B2O3 gel were monitored by the UV lamp and the green channel intensities of the colored images were processed by using the RGB option of a smartphone, manifesting that R-CDs/B2O3 could be used as a portable test gel for serum glucose. Significantly, it is convenient for self-monitoring of blood glucose for diabetic patients. The method was also successfully used for the assay of glucose in blood serum. Hence, the proposed fluorescence sensor opens the door for further research and development of more reliable non-enzymatic assays for continuous glucose monitoring systems. •A multimodal photoluminescence (PL) bio-platform, R-CDs/B2O3 was developed.•Intracellular and serum glucose concentration could be analyzed visually.•R-CDs/B2O3 with solid-state fluorescence could be used as a portable test gel for detecting concentration of glucose.•It is convenient for self-monitoring of blood glucose for diabetic patients.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.130898