Researchers develop nanoprobe for visual quantitative detection of pesticides


Jul 26, 2023

(Nanowerk News) Prof. JIANG Changlong’s team at the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has developed and synthesized two highly effective ratiometric fluorescence nanoprobes. The nanoprobes were combined with the color recognition function of smartphones to achieve visual quantitative detection of pesticides in food and environmental water. The study was been published in Chemical Engineering Journal (“A Strecker-like reaction triggering fluorescent sensing platform for enzyme-free and visual quantitative monitoring of carbamates”) and ACS Sustainable Chemistry & Engineering (“Ratiometric Fluorescent Sensor Based on Hydrogen-Bond Triggering the Internal Filter Effect for Enzyme-Free and Visual Monitoring Pesticide Residues”). Schematic diagram of mechanism of visual detection of aminomethyl ester pesticide residues by ratiometric fluorescent probe Schematic diagram of mechanism of visual detection of aminomethyl ester pesticide residues by ratiometric fluorescent probe. (Image: XU Shihao) Carbamate compounds and organophosphorus pesticides are widely used in agriculture. Their residues can be found in crops due to their slow degradation in nature. These pesticide residues can enter the body through respiration, skin absorption, or ingestion, posing a serious risk to human organ function and consumer safety. Currently, the main analytical methods for pesticide residue detection have limitations including high cost, complex operation, and long processing time. Therefore, it is crucial to develop new methods for pesticide detection that are rapid, cost-effective, highly specific, and sensitive. In this study, the researchers developed an enzyme-free fluorescence probe using CdTe quantum dots as a background fluorescence for the visual detection of carbamate pesticides (CPs). The probe was based on the principle of 2,3-naphthalaldehyde (NDA) and sulfite-induced Strecker reactions. Upon the addition of CPs, a nucleophilic condensation reaction occurred, resulting in the formation of green fluorescent isoindole. This reaction caused a distinct color change from red to green, allowing for rapid visual detection of carbamates. The probe exhibited a low limit of detection (LOD) of 18.6 nM, which is below the national maximum residue standard. Schematic diagram of rapid visualization and quantitative determination of organophosphorus pesticide residues by ratiometric fluorescence probe Schematic diagram of rapid visualization and quantitative determination of organophosphorus pesticide residues by ratiometric fluorescence probe. (Image: XU Shihao) In addition, a proportional fluorescence probe was developed by combining green carbon dots and CdTe quantum dots for the selective quantitative detection of methyl parathion (MP). Under alkaline conditions, MP was rapid hydrolyzed to form p-nitrophenol (p-NP). Interaction between the carbon dots and p-NP resulted in quenching of the green fluorescence through hydrogen bond strengthening, resulting in a sensitive color change from green to red. The LOD for MP detection was as low as 8.9 nM. This work provides a new strategy for the detection of carbamate pesticide residues and organophosphorus pesticide residues, and expands the application of chemically sensitive luminescent materials in environmental protection and food safety, according to the team.

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