高灵敏度纳米印迹三维等离子体传感器

S. Pang
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引用次数: 0

摘要

利用反向纳米压印技术研制了三维等离子体传感器。利用这项技术,具有额外金属水平和不对称轮廓的等离子体传感器被优化,以实现生物分子检测的高灵敏度。结合这些三维纳米结构的独特设计,等离子体传感器具有高性能,器件结合了局部表面等离子体共振、法诺共振和法布里-珀罗腔模式的混合耦合效应,实现了尖锐的共振峰和大的共振峰位移。本文将介绍这些高性能纳米等离子体传感器在生物传感领域的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanoimprinted three-dimensional plasmonic sensors with high sensitivity
Three-dimensional (3D) plasmonic sensors have been developed using the reversal nanoimprint technology. Using this technology, plasmonic sensors with additional levels of metals and asymmetrical profiles were optimized to achieve high sensitivity for biomolecule detection. Combining the unique designs of these 3D nanostructures, the plasmonic sensors have high performance as the devices combined the hybrid coupling effect of localized surface plasmon resonance, Fano resonance, and Fabry-Perot cavity modes to achieve sharp resonance peaks with large resonance peak shifts. Applications of these high performance nanoplasmonic sensors to biosensing will be presented.
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