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Novel Ultralow-Potential Electrochemiluminescence Aptasensor for the Highly Sensitive Detection of Zearalenone Using a Resonance Energy Transfer System

Xiang Shi, Jingxian Li, Futing Wang, Hongfen Yang, Yifei Jiang, Penghui Zhang, Ren Cai, Weihong Tan

2023Analytical Chemistry83 citationsDOI

Abstract

An ultralow-potential electrochemiluminescence (ECL) aptasensor has been designed for zearalenone (ZEN) assay based on a resonance energy transfer (RET) system with SnS 2 QDs/g-C 3 N 4 as a novel luminophore and CuO/NH 2 -UiO-66 as a dual-quencher. SnS 2 QDs were loaded onto g-C 3 N 4 nanosheets and enhanced the ECL luminescence via strong synergistic effects under an ultralow potential. The UV–vis absorption spectrum of CuO/NH 2 -UiO-66 exhibits considerable overlap with the ECL emission spectrum of SnS 2 QDs/g-C 3 N 4, an important consideration for the RET process. In order to stimulate RET, the ZEN aptamer and complementary DNA are introduced for conjugation between the donor and the acceptor. With the binding interaction between ZEN by its aptamer, CuO/NH 2 -UiO-66 is removed from the electrode surface, resulting in the inhibition of the RET system and an increase in the ECL signal. Under optimal conditions, the as-prepared aptasensor quantified ZEN from 0.5 μg·mL –1 to 0.1 fg·mL –1 with a low limit of detection of 0.085 fg·mL –1, and it exhibited good stability, excellent specificity, high reproducibility, and desirable practicality. The sensing strategy provides a method for mycotoxins assay to monitor food safety.

Topics & Concepts

ElectrochemiluminescenceChemistryAptamerLuminophoreDetection limitSurface plasmon resonanceLuminescenceFluorescenceResonance (particle physics)Analytical Chemistry (journal)NanotechnologyOptoelectronicsChromatographyNanoparticleMaterials scienceParticle physicsGeneticsPhysicsQuantum mechanicsBiologyAdvanced biosensing and bioanalysis techniquesBiosensors and Analytical DetectionElectrochemical Analysis and Applications
Novel Ultralow-Potential Electrochemiluminescence Aptasensor for the Highly Sensitive Detection of Zearalenone Using a Resonance Energy Transfer System | Litcius