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Wavelength-Resolved Janus Biosensing Interface for Ratiometric Electrochemical Analysis.

Yuye LiShuyun MengNa DongYa WeiYuan WangYue RenXia LiDong LiuTianyan You
Published in: Analytical chemistry (2024)
The Janus interface, comprising multiple functional heterointerfaces with contrasting functionalities within a single interface, has recently garnered widespread research interest. Herein, a Janus biosensing interface is obtained via wavelength-resolved laser illumination. Deoxyribonucleic acid bridges the electrochemical probe of methylene blue (MB) and plasmonic gold nanoparticles (AuNPs), achieving a sensitive detection performance. MB shows differential electrochemical signals under front ( I 532front ) and back ( I 650back ) laser illumination at 532 and 650 nm, respectively, owing to the selective wavelength-resolved effect. Thus, the presence of a wavelength-resolved laser enabled the design of a biosensing interface with Janus properties. The change in the distance between MB and AuNPs induced by aflatoxin B1 (AFB1) indicates that a sensitive response of the Janus biosensing interface can be achieved. A ratiometric strategy is introduced to describe the electrochemical signals of the I 532front and I 650back for improved robustness. The obtained linear range is 0.0005-50 ng mL -1 , with a detection limit of 0.175 pg mL -1 . Our study demonstrated that the wavelength-resolved Janus interface enables an electrochemical biosensor with excellent sensitivity. This finding provides an efficient approach for improving biosensor performance.
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