NDLI: A Simple Method for the Fabrication of Silicon Inverted Pyramid Substrates for Surface-Enhanced Raman Spectroscopy.

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A Simple Method for the Fabrication of Silicon Inverted Pyramid Substrates for Surface-Enhanced Raman Spectroscopy.

Content Provider	Europe PMC
Author	Liu, Jia Yan, Yao Zhang, Zimu Liu, Yuchen Ge, Jia Guan, Zisheng
Editor	Niaura, Gediminas
Copyright Year	2023
Abstract	Silicon inverted pyramids have been shown to exhibit superior SERS properties compared to ortho-pyramids, yet low-cost, simple preparation processes are lacking at present. This study demonstrates a simple method, silver-assisted chemical etching combined with PVP, to construct silicon inverted pyramids with a uniform size distribution. Two types of Si substrates for surface-enhanced Raman spectroscopy (SERS) were prepared via silver nanoparticles deposited on the silicon inverted pyramids by electroless deposition and radiofrequency sputtering, respectively. The experiments were conducted using rhodamine 6G (R₆G), methylene blue (MB) and amoxicillin (AMX) molecules to test the SERS properties of the Si substrates with inverted pyramids. The results indicate that the SERS substrates show high sensitivity to detect the above molecules. In particular, the sensitivity and reproducibility of the SERS substrates with a denser silver nanoparticle distribution, prepared by radiofrequency sputtering, are significantly higher than those of the electroless deposited substrates to detect R₆G molecules. This study sheds light on a potential low-cost and stable method for preparing silicon inverted pyramids, which is expected to replace the costly commercial Klarite SERS substrates.
Journal	Materials (Basel)
Volume Number	16
DOI	10.3390/ma16103634
PubMed Central reference number	PMC10220623
Issue Number	10
PubMed reference number	37241262
e-ISSN	19961944
Language	English
Publisher	Molecular Diversity Preservation International (MDPI)
Publisher Date	2023-05-10
Access Restriction	Open
Subject Keyword	silicon Figure Sinverted pyramids silver-assisted chemical etching silver nanoparticles surface-enhanced Raman spectroscopy
Content Type	Text
Resource Type	Article
Subject	Condensed Matter Physics Materials Science

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