Highly sensitive refractive index sensing based on nanostructured porous silicon interferometers

Communications in Physics Pub Date : 2024-04-23 DOI:10.15625/0868-3166/19163

Nguyen Thuy Van, Pham Thanh Son, Pham Thanh Binh, Vu Duc Chinh, Hoang Thi Hong Cam, Do Thuy Chi, Nguyen Anh Tuan, B. Huy, Pham van Hoi

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Abstract

In this study, we present the experimental evidence demonstrating the utility of electrical double layer (EDL)-induced ion accumulation, using sodium (Na+) ion in water as model substances, on a negatively charged nanostructured surface, specifically thermally grown silicon dioxide (SiO2). This novel approach, termed Ion Surface Accumulation (ISA), aims to enhance the performance of nanostructured porous silicon (PSi) interferometers in optical refractometric applications. The experimental results show that the electrical double layer-induced ion surface accumulation (EDL-ISA) on oxidized PSi interferometers enables remarkable amplification of the interferometer output signal (the spectral interferogram), even when the bulk refractive index variation is below 10-3 RIU. This substantial signal enhancement translates into an increase in sensitivity of up to two orders of magnitude, facilitating the reliable measurement of refractive index variations with both a detection limit (DL) and resolution (R) as low as 10-4 RIU. This achievement elevates the performance of PSi interferometers in photonics and plasmonics-based refractive index platforms.

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基于纳米结构多孔硅干涉仪的高灵敏折射率传感技术

在本研究中，我们以水中的钠离子（Na+）为模型物质，通过实验证明了电双层（EDL）诱导离子累积在带负电的纳米结构表面（特别是热生长的二氧化硅（SiO2））上的效用。这种被称为离子表面积累（ISA）的新方法旨在提高纳米结构多孔硅（PSi）干涉仪在光学折射测量应用中的性能。实验结果表明，氧化 PSi 干涉仪上的电双层诱导离子表面累积（EDL-ISA）可显著放大干涉仪输出信号（光谱干涉图），即使体折射率变化低于 10-3 RIU。信号的大幅增强使灵敏度提高了两个数量级，从而有助于可靠地测量折射率变化，检测极限 (DL) 和分辨率 (R) 低至 10-4 RIU。这一成果提升了 PSi 干涉仪在光子学和基于等离子体的折射率平台中的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications in Physics

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