利用大孔硅的法布里-佩罗干涉膜进行病毒诊断

IF 0.8 4区 物理与天体物理 Q4 OPTICS Optics and Spectroscopy Pub Date : 2024-09-11 DOI:10.1134/S0030400X24030093
K. A. Gonchar, N. Yu. Saushkin, I. I. Tsiniaikin, A. A. Eliseev, A. S. Gambaryan, J. V. Samsonova, L. A. Osminkina
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摘要

摘要 本文首次证明了根据大孔硅(macro-pSi)薄膜全反射光谱的变化来检测病毒(特别是甲型流感病毒)的可能性。通过对晶体硅基底进行电化学蚀刻,制备出了孔径约为 100 纳米的大孔硅薄膜。利用布鲁格曼有效介质模型计算得出的大硅孔隙率为 75%。电子显微镜显示,这种高孔隙率薄膜可在其表面和孔隙内吸附 50-100 纳米大小的病毒,但当纳米结构的表面被单克隆抗体功能化时,吸附效率会显著提高,从而提供特异性的病毒结合。宏观硅薄膜的反射光谱显示出一系列干涉条纹,在吸附病毒后,干涉条纹的强度会发生显著变化。研究结果表明,利用巨型 pSi 薄膜中的法布里-佩罗干涉,可以采用简单有效的光学方法进行病毒诊断。
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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Virus Diagnostics Using Fabry–Pérot Interference Films of Macroporous Silicon

In this paper, the possibility of detecting viruses, specifically influenza A virus, based on changes in the spectra of total reflection from macroporous silicon (macro-pSi) films, is demonstrated for the first time. Macro-pSi films with a pore diameter of about 100 nm were produced by electrochemical etching of crystalline silicon substrates. The porosity of the macro-pSi, calculated using the Bruggeman effective medium model, was 75%. Electron microscopy showed that such highly porous films adsorb of 50–100 nm in size viruses on their surface and inside the pores, but the efficiency of adsorption significantly increases when the surface of the nanostructures is functionalized with monoclonal antibodies, providing specific binding of viruses. The reflection spectra of macro-pSi films demonstrate a series of interference fringes, the intensity of which dramatically changes upon virus adsorption. The results obtained demonstrate the possibility of a simple and effective optical method for virus diagnostics using Fabry–Pérot interference in macro‑pSi films.

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来源期刊
Optics and Spectroscopy
Optics and Spectroscopy 物理-光谱学
CiteScore
1.60
自引率
0.00%
发文量
55
审稿时长
4.5 months
期刊介绍: Optics and Spectroscopy (Optika i spektroskopiya), founded in 1956, presents original and review papers in various fields of modern optics and spectroscopy in the entire wavelength range from radio waves to X-rays. Topics covered include problems of theoretical and experimental spectroscopy of atoms, molecules, and condensed state, lasers and the interaction of laser radiation with matter, physical and geometrical optics, holography, and physical principles of optical instrument making.
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