Efficient and reliable detection of rhodamine B using SERS from silver-decorated photonic crystal silicon nanoscale pores

Vietnam Journal of Science and Technology Pub Date : 2023-06-07 DOI:10.15625/2525-2518/18064

Do Thuy Chi, Nguyen Thuy Van, Vu Duc Chinh, Hoang Thi Hong Cam, Vilaysak Sayyasone, Pham Thanh Binh, Bui Huy, Pham Van Hoi

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Abstract

Porous silicon photonic crystal (PSi PhC) decorated with silver nanoparticles (AgNPs) is shown to provide a new substrate for the improvement of SERS. AgNPs are obtained through immersion of PSi PhC samples in AgNO3 solutions and successive thermal annealing. The nanocomposite material generated by adding AgNPs inside the silicon nanoscale pores, integrates the ability of metal surfaces to amplify Raman scattering signals and an enlarged surface area. Besides, PhC structure formed by multilayer PSi increases interaction time of light and matter of the multilayer structure. The experimental results show that the AgNPs-decorated PSi PhC has the largest Raman intensity in comparison with other SERS substrates based on Si. The enhancement of Raman signals also reduces the threshold of the detection down to below 10-10 M. The analytical enhancement factor of AgNPs/PSi PhC SERS substrate for the detection of Rhodamine B (RhB) reaches 1010. This proposed AgNPs/PSi PhC SERS substrate could serve as a potential candidate for detecting RhB in foodstuffs at very low concentrations.

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基于银装饰光子晶体硅纳米孔的SERS高效可靠检测罗丹明B

纳米银修饰的多孔硅光子晶体(PSi - PhC)为提高SERS性能提供了一种新的衬底。通过将PSi - PhC样品浸泡在AgNO3溶液中并进行连续热退火，得到AgNPs。通过在硅纳米级孔内添加AgNPs生成的纳米复合材料，集成了金属表面放大拉曼散射信号的能力和扩大的表面积。此外，多层PSi形成的PhC结构增加了多层结构中光与物质的相互作用时间。实验结果表明，与其他基于Si的SERS衬底相比，agnps修饰的PSi PhC具有最大的拉曼强度。拉曼信号的增强也使检测阈值降低到10-10 m以下，AgNPs/PSi PhC SERS底物检测罗丹明B (Rhodamine B, RhB)的分析增强因子达到1010。该AgNPs/PSi PhC SERS底物可作为极低浓度食品中RhB检测的潜在候选物。

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Vietnam Journal of Science and Technology

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