Wide color-varying visualization of sulfide with a dual emissive ratiometric fluorescence assay using carbon dots and gold nanoclusters

•A simple and fast fluorescence approach was developed for visual detection of sulfide.•Fluorescence probe consists of blue emissive carbon dots and orange emissive gold nanoclusters.•The probe was successfully applied for sulfide detection in river and spring water.•The visual limit of detection of...

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Bibliographic Details
Published in:Microchemical journal 2020-09, Vol.157, p.104960, Article 104960
Main Authors: Nejad, Mohammad Amin Farahmand, Bigdeli, Arafeh, Hormozi-Nezhad, M. Reza
Format: Article
Language:English
Subjects:
Carbon dots
Glutathione stabilized gold nanoclusters
River water
Sulfide ions
Visual determination
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Summary:•A simple and fast fluorescence approach was developed for visual detection of sulfide.•Fluorescence probe consists of blue emissive carbon dots and orange emissive gold nanoclusters.•The probe was successfully applied for sulfide detection in river and spring water.•The visual limit of detection of 4 µM is obtained. Development of visual detection methods regarding water pollutants can effectively facilitate water resource monitoring programs. A wide color-varying ratiometric approach has been developed for sensitive determination of sulfide by mixing orange emissive glutathione stabilized gold nanoclusters (AuNCs) and blue emissive urea stabilized carbon dots (CDs) in an appropriate ratio. Under a single excitation wavelength of 365 nm, the ratiometric fluorescence (RF) probe exhibited two distinct emission bands at 452 and 607 nm corresponding to CDs and AuNCs, respectively. Owing to the high affinity of sulfide ions to AuNCs in alkaline medium, the fluorescence (FL) of AuNCs was turned-off while the emission of CDs remained unchanged, resulting in a distinguishable FL color change from pink to blue under an ultra-violet (UV) lamp. The I452/I607 ratio was linearly dependent to sulfide concentration in the range of 1.0 to 50.0 µM with a limit of detection (LOD) of 0.35 µM and a visual LOD as low as 4.0 µM that is less than the maximum allowable sulfide amount (10.0 µM) in drinking water. The RF probe was successfully applied for further determination of sulfide in river water and acceptable recoveries were obtained. We believe that the simplicity together with the great visual capability of this visual RF probe can improve and facilitate on-site sulfide determination. [Display omitted]
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2020.104960