4.7 Article

Development of highly sensitive plasmonic biosensors encoded with gold nanoparticles on M13 bacteriophage networks

Journal

SENSORS AND ACTUATORS B-CHEMICAL
Volume 400, Issue -, Pages -

Publisher

ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2023.134916

Keywords

Surface-enhanced Raman scattering; M13 bacteriophage; Network assembly; SERS substrate; Nanogap

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A novel nanoplasmonic substrate was developed for biomedical applications, which showed strong hot spots for detecting biomarkers at low concentrations. The substrate, called AuNPs@M13, was made by immobilizing 60 nm gold nanoparticles onto the surface of an M13 bacteriophage scaffold. It demonstrated higher sensitivity and lower limit of detection compared to commercially available assays.
In this study, a novel nanoplasmonic substrate is developed for biomedical applications. In nanoplasmonic biosensors, a substrate that can induce strong hot spots by forming uniform nanogaps smaller than 10 nm is required to implement a device capable of detecting biomarkers at low concentrations. Herein, gold nanoparticles-encoded M13 bacteriophage (AuNPs@M13) substrate was developed by immobilizing 60 nm AuNPs onto the surface of an M13 bacteriophage scaffold with a network assembly structure. The plasmonic characteristics of the proposed AuNPs-M13 were evaluated by assessing the nanogap distribution, electromagnetic enhancement effects, and reproducibility of the fabricated substrate. Additionally, an immunoassay for severe acute respiratory syndrome coronavirus 2 was performed to confirm the clinical applicability of the proposed AuNPs@M13 substrate. When the AuNPs@M13 was used as a nanoplasmonic substrate, it was possible to achieve better sensitivity (limit of detection [LoD] = 1.21 PFU/mL) than that with the commercially available lateral flow assay strip (LoD = 300-500 PFU/mL) or enzyme-linked immunoassay (LoD = 48 PFU/mL). The proposed AuNPs@M13 in this study is expected to be used as an innovative biomedical device for the highsensitivity detection of various biomarkers.

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