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A simple self-assembly aptasensor for ultrasensitive detection of kanamycin based on carbon dots and Ti<sub>3</sub>C<sub>2</sub> MXene nanocomposite

Fang Li, Shuyue Xiong, Yijun Tan, Mingming Luo, Zijian Wu

2025RSC Advances6 citationsDOIOpen Access PDF

Abstract

MXene to promote electron transfer and provide plenty of exposed active sites for the aptamer to capture KANA precisely. The MB inserted into dsDNA would be liberated upon interaction with KANA due to a competitive process that occurs among cDNA and KANA, reducing electrical signal. Under the optimal conditions, the constructed aptasensor exhibited a good linear relationship between the output signal and the logarithm of KANA concentration in the range of 1 fM-1 mM, and the limit of detection is 0.892 fM. The satisfactory selectivity, stability, and reproducibility suggested that the prepared aptasensor can be a universal platform to detect other antibiotic residues by anchoring corresponding aptamers. Furthermore, it has been successfully applied to determine KANA in milk samples (recovery rates ranged from 101.01% to 107.21%, and the RSD was below 5%), demonstrating potential application prospects in the food-safety analysis field.

Topics & Concepts

NanocompositeAptamerMethylene blueKanamycinNanotechnologyElectrodeCarbon fibersMaterials scienceDetection limitSelf-assemblyChemistryComposite numberChromatographyOrganic chemistryPhysical chemistryPhotocatalysisBiochemistryCatalysisBiologyGeneGeneticsComposite materialAdvanced biosensing and bioanalysis techniquesMXene and MAX Phase MaterialsNanocluster Synthesis and Applications
A simple self-assembly aptasensor for ultrasensitive detection of kanamycin based on carbon dots and Ti<sub>3</sub>C<sub>2</sub> MXene nanocomposite | Litcius