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Nitrogen and sulfur co-doped carbon dots derived from granatums and ammonium persulfate to detect tetracyclines in milk

Xiumei Chen, Jinxin Che

2022Food Chemistry Advances14 citationsDOIOpen Access PDF

Abstract

Highly photoluminescent nitrogen and sulfur co-doped carbon dots (N,S-CDs) derived from the granatum as carbon source and ammonium persulfate as passivator was developed as a probe for the detection of tetracyclines (DOC, TC, OTC, and CTC) in milk products. Transmission electron microscopy (TEM) exhibited that the as-prepared N,S-CDs were quasi-spherical particles with an average diameter of ∼5.5 nm. X-ray diffraction (XRD) showed that the N,S-CDs possessed a graphitic-like structure. Fourier-transform infrared (FT-IR) and X-ray photoelectron spectroscopy (XPS) confirmed the existence of -OH, -COOH, R-SO3H and -NH2 on the surface of N,S-CDs. The amidation reaction between the -COOH of N,S-CDs and -CO-NH2 of TCs combined with the inner-filter effect resulted in the fluorescence (FL) quenching. The FL quenching efficiencies reached 98.5%, 51.6%, 46.5%, and 39.4% after introducing DOC, TC, OTC, and CTC. Highly fluoresce quenched for DOC was ascribed to the existence of H on C6 of DOC induced weak electrostatic repulsion between N,S-CDs and DOC. The nanosensor allowed the detecting TCs in the range of 0.08∼3.05 µmol L-1 for DOC with the detection limit of 2.87 nmol L-1, 0.32∼5.85 µmol L-1 for TC with 14.57 nmol L-1, 0.31∼6.29 µmol L-1 for OTC with 16.99 nmol L-1, and 0.30∼6.06 µmol L-1 for CTC with 17.11 nmol L-1 (S/N=3). Recoveries of 83.93∼126.22% and RSDs of 1.11%∼5.83% were achieved for TCs detection in milk product samples, indicating the optical sensor provided an alternative strategy for real applications in food safety control.

Topics & Concepts

Ammonium persulfateX-ray photoelectron spectroscopyFourier transform infrared spectroscopyAnalytical Chemistry (journal)ChemistryCarbon fibersDetection limitFluorescenceTransmission electron microscopyAmmoniumSulfurNuclear chemistryQuenching (fluorescence)Dissolved organic carbonPhotoluminescenceMaterials scienceNanotechnologyChemical engineeringChromatographyOrganic chemistryEnvironmental chemistryComposite materialOptoelectronicsPolymerComposite numberEngineeringQuantum mechanicsPolymerizationPhysicsCarbon and Quantum Dots ApplicationsMercury impact and mitigation studiesHeavy Metal Exposure and Toxicity
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