Journal
JOURNAL OF HAZARDOUS MATERIALS
Volume 445, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jhazmat.2022.130563
Keywords
Food dyes; Visual detection; Food safety; Quantum dots; Fluorescent nanoprobe
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A multi-mode visualization platform was developed for in-situ detection of food dyes by combining colorimetry, fluorometry, and smartphone-based digital image analysis. Water-dispersible quantum dots were used as nanoprobes for colorimetry and fluorometry. The platform showed fast and accurate detection capability and could be extended to other fields.
Herein, a multi-mode visualization platform was initiated for in-situ detection of food dyes (FDs) by combining colorimetry, fluorometry and smartphone-based digital image analysis, in which water-dispersible quantum dots (QDs) were served as nanoprobes. Colorimetry was achieved by color comparison, while both fluorometry and fluorescence quantification were performed through inner filter effect (IFE)-induced fluorescence quenching, then color information (RGB & gray-scale values) of colorimetry and fluorometry was picked by a smartphone to reconstruct digitized alignments. Since IFE mechanism was concentration-dependent but did not rely on the interaction between fluorophore and quencher, the whole process of fluorescence response could be finished within 10 s, and both color gradients and fluorescence changes showed fine mappings to FDs concentrations in the range of 1.0 x 10-3-0.035 mg/mL for brilliant blue, and 1.0 x 10-4-0.1 mg/mL for Allura red and sunset yellow. As a proof-of-concept, the in-situ multi-mode visualization of these FDs in real beverages was experi-mentally proved to be highly feasible and reliable as compared with instrumental techniques like UV-vis/ fluorescence spectrometry, along with HPLC. Finally, this strategy was extended to the multi-mode visualization of non-food dyes in three simulated wastewater samples with high credibility by contrast with the true additive amounts of model dyes.
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