超越被动扩散:用于快速灵敏比色免疫传感器响应的 Core@Satellite 磁性-质子粒子

Maria De Luca, Adriano Acunzo, Daniele Marra, Margherita Borriello, Diego Ingrosso, Raffaele Velotta, Vincenzo Iannotti, Bartolomeo Della Ventura
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引用次数: 0

摘要

由金和氧化铁组成的磁塑粒子因其独特的性质,在生物传感应用中展现出巨大的潜力。金纳米粒子(AuNPs)具有等离子特性,而氧化铁复合材料对外部磁场有反应,与被动扩散相比,能显著缩短检测时间。本研究探索了磁芯@卫星磁性等离子体粒子(CSMPs),其特点是磁性纳米粒子簇和大量类似卫星的 AuNPs,可放大纳米结构金表面的光学响应。利用夹层方案,当混合纳米粒子与 AuNPs 表面上预先固定的目标物结合时,目标分析物就会被检测出来,从而引起免疫传感器消光光谱的变化。外部磁场的应用明显提高了生物传感器的响应和灵敏度,将检测时间从数小时缩短到数分钟。利用 CSMP 的特性,该免疫传感器可在几分钟内检测到低浓度的特异性免疫蛋白。CSMP 在精确灵敏地检测分析物方面前景广阔,有望应用于快速检测和大规模筛选。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Beyond the Passive Diffusion: Core@Satellite Magneto-Plasmonic Particles for Rapid and Sensitive Colorimetric Immunosensor Response

Beyond the Passive Diffusion: Core@Satellite Magneto-Plasmonic Particles for Rapid and Sensitive Colorimetric Immunosensor Response

Magneto-plasmonic particles, comprising gold and iron oxide, exhibit substantial potential for biosensing applications due to their distinct properties. Gold nanoparticles (AuNPs) provide plasmonic features, while iron oxide composites, responsive to an external magnetic field, significantly reduce detection time compared to passive diffusion. This study explores core@satellite magneto-plasmonic particles (CSMPs), featuring magnetic nanoparticle clusters and numerous satellite-like AuNPs, to amplify the optical response on a nanostructured gold surface. Using a sandwich scheme, target analytes are detected as hybrid nanoparticles bind to the pre-immobilized target on the AuNPs surface, inducing changes in the immunosensor's extinction spectrum. Application of an external magnetic field notably enhances biosensor response and sensitivity, reducing assay time from hours to minutes. Leveraging the properties of CSMPs, the immunosensor detects specific immune protein at low concentrations within minutes. CSMPs hold considerable promise for precise and sensitive analyte detection, offering potential applications in rapid testing and mass screening.

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