Ratiometric fluorometric and colorimetric dual-mode sensing of glucose based on gold-platinum bimetallic nanoclusters

We synthesized Au-PtNCs-GMP, which displayed excellent peroxidase-like activity as well as fluorescence property. Utilizing the bifunctional Au-PtNCs-GMP, a sensitive fluorometric and colorimetric dual-channel detection strategy for glucose was achieved for the first time. [Display omitted] •The Au-...

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Bibliographic Details
Published in:Microchemical journal 2022-08, Vol.179, p.107574, Article 107574
Main Authors: Sun, Huilin, Zhang, Jiabao, Wang, Mengjun, Su, Xingguang
Format: Article
Language:English
Subjects:
Dual-mode detection
Glucose
Gold-platinum bimetallic nanoclusters
Peroxidase-like activity
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Summary:We synthesized Au-PtNCs-GMP, which displayed excellent peroxidase-like activity as well as fluorescence property. Utilizing the bifunctional Au-PtNCs-GMP, a sensitive fluorometric and colorimetric dual-channel detection strategy for glucose was achieved for the first time. [Display omitted] •The Au-PtNCs-GMP were successfully synthesized by an improved hydrothermal method.•The bifunctional Au-PtNCs-GMP possessed peroxidase-like mimetic activity and stable fluorescence.•The bifunctional Au-PtNCs-GMP were constructed for a dual-mode glucose assay for the first time.•The dual-output assay for glucose detection displayed excellent application prospects. The synthesis of highly sensitive and selective luminescent probes provides a vital and efficient approach for diagnosing and preventing clinical diseases. In this work, gold-platinum bimetallic nanoclusters (Au − PtNCs-GMP) were synthesized with guanosine monophosphate (GMP) as the capping agent, which possessed strong fluorescent emission at 418 nm, and also exhibited great peroxidase-like mimetic activity. Glucose can be catalyzed to generate H2O2 by glucose oxidase, in the presence of H2O2, o-phenylenediamine (OPD) regarded as a representative non-fluorescent substance was catalyzed by Au-PtNCs-GMP and produced fluorescent 2,3-diaminophenazine (DAP) with an emission wavelength of 560 nm. Furthermore, the colorless OPD was oxidized to yellow DAP with UV–vis absorption peak at 420 nm. The generation of DAP can efficiently quench the fluorescence signal of Au-PtNCs-GMP at 418 nm on account of inner filter effect (IFE). The decrease of Au-PtNCs-GMP fluorescence and the increase of DAP fluorescence made it possible to detect glucose via ratiometric fluorometric intensity. Thus, a ratiometric fluorescent and colorimetric dual-mode sensing was achieved for glucose detection. The linear ranges of ratiometric fluorescence method and colorimetric method toward glucose were in the range of 0.01–0.4 mM and 0.05–0.4 mM, with the low limits of detection (LOD) of 7 μM and 11 μM, respectively. In addition, this dual-mode sensing method can be used for detecting glucose concentration in real biological samples with satisfying results, which provided a valuable and reliable strategy for glucose-related detections.
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2022.107574