Ultrasensitive biosensors using Fano resonances in double-layer gold nanostructures

Kuang-Li Lee, Jhih-Bin Huang, Shuhan Wu, P. Wei
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引用次数: 1

Abstract

Nanostructure-based sensors are capable of sensitive and label-free detection for biomedical applications. However, plasmonic sensors capable of multiplexed highly sensitive detection with high-throughput and low-cost fabrication techniques are desirable. Here, we utilize a thermal-annealed template-stripping method to fabricate large-area double-layer gold nanostructures on polymer films with low cost and high SPR sensitivities. We found that a transverse magnetic-polarized wave in these gold nanostructures generated sharp and asymmetric Fano resonances in transmission spectra. The full width at half-maximum bandwidth was 3.84 nm and the wavelength sensitivity was 560 nm/RIU. In addition, it has a higher intensity sensitivity up to 44381 %/RIU.
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在双层金纳米结构中使用范诺共振的超灵敏生物传感器
基于纳米结构的传感器能够在生物医学应用中进行灵敏和无标签的检测。然而,等离子体传感器能够多路高灵敏度检测与高通量和低成本的制造技术是可取的。本研究利用热退火模板剥离法在低成本、高SPR灵敏度的聚合物薄膜上制备了大面积双层金纳米结构。我们发现,这些金纳米结构中的横向磁极化波在透射光谱中产生了尖锐的不对称法诺共振。半最大带宽全宽度为3.84 nm,波长灵敏度为560 nm/RIU。此外,它还具有较高的强度灵敏度,高达44381% /RIU。
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