基于纳米穹顶阵列与纳米间隙的光纤等离子体传感器。

Fiber Optic Plasmonic Sensors Based on Nanodome Arrays with Nanogaps.

机构信息

Department of Electronics and Electrical Engineering, Dankook University, Yongin 16890, Republic of Korea.

Department of Nuclear Medicine, Seoul National University Bundang Hospital, Seongnam 13620, Republic of Korea.

出版信息

ACS Sens. 2022 May 27;7(5):1451-1457. doi: 10.1021/acssensors.2c00154. Epub 2022 May 6.

DOI:10.1021/acssensors.2c00154

PMID:35522993

Abstract

In this study, a high-performance fiber optic surface plasmon resonance (FO-SPR) sensor using a dome array with nanogaps (DANG) is proposed for label-free real-time detection of biomolecules. A novel and simple method using polymer beads enables high sensitivity by allowing hotspots with nanometer spacing between the Au dome and the surrounding film. The nanodome structure, which comprises a polymer core and a Au shell, induces a localized surface plasmon, expands the sensing area, and extensively enhances the electromagnetic field. The refractive index sensitivity of the FO-SPR sensor with nanostructures, i.e., with nanogaps and nanodomes, was found to be 7.8 times higher than that of the FO-SPR sensor without nanostructures. The proposed sensor achieved a low detection limit of 38 fg/mL while quantifying thyroglobulin antibody-antigen interactions and exhibited excellent selectivity. In addition, it helped detect serum samples with a 103% recovery rate.

摘要

在这项研究中，提出了一种使用带有纳米间隙的穹顶阵列的高性能光纤表面等离子体共振（FO-SPR）传感器，用于无标记实时检测生物分子。一种新颖而简单的方法使用聚合物珠，通过在 Au 穹顶和周围薄膜之间允许具有纳米级间隔的热点，实现了高灵敏度。纳米穹顶结构由聚合物核和 Au 壳组成，诱导局域表面等离子体，扩大了传感面积，并广泛增强了电磁场。具有纳米结构（即纳米间隙和纳米穹顶）的 FO-SPR 传感器的折射率灵敏度比没有纳米结构的 FO-SPR 传感器高 7.8 倍。所提出的传感器在定量检测甲状腺球蛋白抗体-抗原相互作用时实现了低至 38 fg/mL 的检测限，并表现出优异的选择性。此外，它有助于检测具有 103%回收率的血清样本。

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基于纳米穹顶阵列与纳米间隙的光纤等离子体传感器。

Fiber Optic Plasmonic Sensors Based on Nanodome Arrays with Nanogaps.

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