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Temperature-Responsive Covalent Organic Framework-Encapsulated Carbon Dot-Based Sensing Platform for Pyrethroid Detection via Fluorescence Response and Smartphone Readout

Ying Zhang, Xuecheng Zhu, Mingjian Li, Huilin Liu, Baoguo Sun

2022Journal of Agricultural and Food Chemistry52 citationsDOI

Abstract

In this paper, carbon dot (CD)-encapsulated 1,3,5-tris(4-formylphenyl)benzene (TFB)/2,5-dihydroxyterephthalohydrazide (DHTH) covalent organic frameworks (TDCOFs) grafted with thermoresponsive poly(N-isopropylacrylamide) (PNIPAM) (CDs@TDCOFs@PNIPAM) were fabricated for the detection of pyrethroids. CDs@TDCOFs@PNIPAM achieved a temperature-responsive “on/off” detection of pyrethroids based on the target-triggered electron-transfer mechanism. The detection limit of pyrethroids was as low as 0.69 μg/L in the wide linear range of 5–400 μg/L (R2 > 0.9523). Simultaneously, CDs@TDCOFs@PNIPAM with red, green, and blue (RGB) fluorescence emissions were integrated with a smartphone-assisted device, enabling the visual smart quantitative detection of pyrethroids with a detection limit of 4.875 μg/L. Ultimately, agricultural products were chosen as actual samples to verify the applicability of both recognition modes, and the calculated recovery rate was 105.48–113.40%. Accordingly, CDs@TDCOFs@PNIPAM featuring temperature-responsive switching behavior and RGB fluorescence emission provided a promising analytical strategy for ensuring agricultural and food safety.

Topics & Concepts

Detection limitFluorescenceCovalent organic frameworkPyrethroidLinear rangeCarbon fibersRGB color modelQuantum dotCovalent bondMaterials scienceNanotechnologyChemical engineeringChemistryChromatographyComputer scienceOrganic chemistryPesticideComposite materialBiologyPhysicsEngineeringAgronomyOperating systemQuantum mechanicsComposite numberCarbon and Quantum Dots ApplicationsCovalent Organic Framework ApplicationsElectrochemical sensors and biosensors