Siberian Federal University 
- Issue
- Journal of Siberian Federal University. Mathematics & Physics. 2024 17 (6)
- Authors
- Wang, Mengyuan; Rachishe, Polina A.; Nazarovskaia, Daria A.; Domnin, Pavel A.; Tsiniaikin, Ilia I.; Efimova, Aleksandra I.; Ermolaeva, Svetlana A.; Osminkina, Liubov A.; Gonchar, Kirill A.
- Contact information
- Wang, Mengyuan : Lomonosov Moscow State University Moscow, Russian Federation; ; Rachishe, Polina A. : Lomonosov Moscow State University Moscow, Russian Federation; ; Nazarovskaia, Daria A. : Lomonosov Moscow State University Moscow, Russian Federation; OCRID: 0000-0001-8151-9602; Domnin, Pavel A. : Lomonosov Moscow State University Moscow, Russian Federation; The Gamaleya National Research Center of Epidemiology and Microbiology Moscow, Russian Federation; OCRID: 0000-0002-4130-1753; Tsiniaikin, Ilia I. : Lomonosov Moscow State University Moscow, Russian Federation; OCRID: 0000-0002-5820-8774; Efimova, Aleksandra I. : Lomonosov Moscow State University Moscow, Russian Federation; OCRID: 0000-0002-3575-4481; Ermolaeva, Svetlana A. : The Gamaleya National Research Center of Epidemiology and Microbiology Moscow, Russian Federation; OCRID: 0000-0003-3396-6816; Osminkina, Liubov A. : Lomonosov Moscow State University Moscow, Russian Federation; OCRID: 0000-0001-7485-0495; Gonchar, Kirill A. : Lomonosov Moscow State University Moscow, Russian Federation; OCRID: 0000-0002-2301-2886
- Keywords
- porous silicon; silicon nanowires; Escherichia coli; interference; sensorics; Escherichia coli
- Abstract
This paper explores the potential for diagnosing bacterial presence in biological fluids using Fabry–Perot interference in silicon nanostructures with different morphologies. It compares the bacterial detection capabilities of porous silicon films and silicon nanowires, specifically focusing on the detection of Escherichia coli bacteria. The reflectance spectra of these nanostructures exhibit interference fringes resulting from Fabry–Perot interference. By analyzing changes in the effective optical thickness of the silicon nanostructures after bacterial deposition, the study concludes that silicon nanostructures with varying morphologies can be effectively used for bacterial detection
- Pages
- 798–807
- EDN
- BXTDRJ
- Paper at repository of SibFU
- https://elib.sfu-kras.ru/handle/2311/154145
Journal of Siberian Federal University. Mathematics & Physics / Diagnostics of Escherichia coli Using Fabry-Perot Interference in Silicon Nanostructures of Various Morphologies
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