Dual-colored carbon dot encapsulated metal-organic framework for ratiometric detection of glutathione

In the presence of Cu2+, the yellow fluorescence of dual-emissive BYCDs@ZIF-8 nanocomposite is enhanced, while its blue fluorescence is quenched. Upon addition of glutathione on Cu2+- BYCDs@ ZIF-8 system, the fluorescence of both peaks restored to their original states gradually. [Display omitted] •...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2019-10, Vol.297, p.126775, Article 126775
Main Authors: Jalili, Roghayeh, Khataee, Alireza, Rashidi, Mohammad-Reza, Luque, Rafael
Format: Article
Language:English
Subjects:
Carbon
Carbon dots
Copper
Encapsulation
Eye (anatomy)
Fluorescence
Glutathione
Metal-organic frameworks
Nanocomposites
Ratiometric sensor
Selectivity
Self calibration
Strong interactions (field theory)
Ultraviolet radiation
Visual observation
Yellow emissive carbon dots
Zeolites
Zeolitic imidazolate framework
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Summary:In the presence of Cu2+, the yellow fluorescence of dual-emissive BYCDs@ZIF-8 nanocomposite is enhanced, while its blue fluorescence is quenched. Upon addition of glutathione on Cu2+- BYCDs@ ZIF-8 system, the fluorescence of both peaks restored to their original states gradually. [Display omitted] •Yellow and blue emitting carbon dots were synthesized by totally green way.•Synthesized composite exhibited the characteristic emissions of yellow emitting and blue emitting carbon dots.•The ratiometric fluorescent sensor can detect glutathione in subnanomolar levels.•The sensor detects glutathione discriminatively in the presence of other biothiols. A dual-emissive metal−organic frameworks was prepared by encapsulating yellow emitting and blue emitting carbon dots into the zeolitic imidazolate framework (BYCDs@ZIF-8) which acted as a ratiometric probe for Glutathione. The composite shows dual-emissions which are centered at 565 and 440 nm under a single excitation wavelength of 365 nm. In the presence of Cu2+, the fluorescence of yellow emitting carbon dots in the nanocomposite was selectively enhanced, while the fluorescence of the blue emitting carbon dots was quenched. Upon addition of glutathione on Cu2+- BYCDs@ZIF-8 system, the fluorescence of both carbon dots gradually restored to their original amounts due to the strong interaction between glutathione and Cu2+. Detection progress can be observed by unaided eyes with a visual color change from yellow to blue under ultraviolet irradiation. Under the optimal conditions, glutathione determined in the range of 3–25 nM with a limit of detection of 0.90 nM (Signal/Noise = 3). The employed composite with distinct size-selectivity not only decreases the background interference from large molecule but it is also able to strongly accumulate the target analytes and thus greatly amplifies the sensing signal and specificity. Also, the ratiometric strategy provided built-in self-calibration for signal correction and improved precision and accuracy. This method was applied for the detection of glutathione in fruit samples and showed satisfactory results.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2019.126775