ГКР-активные подложки на основе внедренных наночастиц Ag в объем c-Si: моделирование, технология, применение

Физика и техника полупроводников Pub Date : 2023-01-01 DOI:10.21883/ftp.2023.04.55893.07k

А.А. Ермина, Н.С. Солодовченко, К.В. Пригода, В. С. Левицкий, С. И. Павлов, Ю.А. Жарова

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Abstract

A simple method for obtaining SiO2 : Ag : Si and Ag : Si hybrid nanostructures is presented. High-temperature treatment of an island film of Ag on the surface of c-Si makes it possible to preserve the plasmonic properties of Ag nanoparticles and protect them from external influences by coating them with a thermally grown layer of SiO2. The calculation of the electric field strength distribution in the structure with embedded Ag nanoparticles in c-Si demonstrates the presence of intrinsic “hot spots” at the corners of the nanoparticles, which leads to a maximum enhancement factor (~10^6) of Raman scattering. scattering. A numerical calculation of the dependence of the spectral position of a localized plasmon resonance on the geometry of structures can serve as a basis for their design in the future. Surface-enhanced Raman scattering spectroscopy showed reliable detection of the methyl orange from an aqueous solution at a concentration of 10^-5 M.

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在c-Si体积中引入的纳米粒子Ag活性支架:模拟、技术、应用

提出了一种制备SiO2: Ag: Si和Ag: Si杂化纳米结构的简单方法。对c-Si表面的银岛膜进行高温处理，可以保留银纳米粒子的等离子体特性，并通过在其表面涂上一层热生长的SiO2来保护它们免受外部影响。在c-Si中嵌入银纳米粒子结构的电场强度分布计算表明，纳米粒子的角部存在本征“热点”，导致拉曼散射的增强因子达到最大(~10^6)。散射。局部等离子体共振的光谱位置与结构几何关系的数值计算可以作为未来设计等离子体共振的基础。表面增强拉曼散射光谱显示在浓度为10^-5 M的水溶液中可以可靠地检测到甲基橙。

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