Selective Recognition and Reversible “Turn-Off” Fluorescence Sensing of Acetate (CH3COO−) Anion at Ppb Level Using a Simple Quinizarin Fluorescent Dye

A simple and cost-effective optical sensing system based on quinizarin fluorescent dye (QZ) for the selective and reversible sensing of CH3COO− anions is reported. The anion binding affinity of QZ towards different anions was monitored using electronic absorption and fluorescence emission titration...

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Bibliographic Details
Published in:Chemistry an international journal 2022-10, Vol.4 (4), p.1407-1416
Main Authors: Noushija, Mannanthara Kunhumon, Shanmughan, Ananthu, Mohan, Binduja, Shanmugaraju, Sankarasekaran
Format: Article
Language:English
Subjects:
Absorption spectra
acetate anion sensing
Anions
Binding
chemosensor
Colorimetry
Dyes
Emission analysis
Emission spectra
Fluorescence
Fluorescent dyes
fluorescent sensors for anions
Hydrogen
Nitrogen dioxide
Organic chemicals
Pollution monitoring
quinizarin dye
Sensors
Titration
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Summary:A simple and cost-effective optical sensing system based on quinizarin fluorescent dye (QZ) for the selective and reversible sensing of CH3COO− anions is reported. The anion binding affinity of QZ towards different anions was monitored using electronic absorption and fluorescence emission titration studies in DMSO. The UV-visible absorption spectrum of QZ showed a decrease in the intensity of the characteristic absorption peaks at λ = 280, 323, and 475 nm, while a new peak appeared at λ = 586 nm after the addition of CH3COO− anions. Similarly, the initial strong emission intensity of QZ was attenuated following titration with CH3COO− anions. Notably, similar titration using other anions, such as F−, Cl−, I−, NO3−, NO2−, and H2PO4-, caused no observable changes in both absorption and emission spectra. The selective sensing of CH3COO− anions was also reflected by a sharp visual color change from bright green to faint green under room light. Further, the binding was found to be reversible, and this makes QZ a potential optical and colorimetric sensor for selective, reversible, and ppb-level detection of CH3COO− anions in a DMSO medium.
ISSN:2624-8549
2624-8549
DOI:10.3390/chemistry4040092