Fabrication of Flexible Pyramid Array as SERS Substrate for Direct Sampling and Reproducible Detection

Rapid extraction and analysis of target molecules from irregular surfaces are in high demand in the field of on-site analysis. Herein, a flexible platform used for surface-enhanced Raman scattering (SERS) based on an ordered polymer pyramid structure with half-imbedded silver nanoparticles (AgNPs) w...

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Published inAnalytical chemistry (Washington) Vol. 95; no. 38; pp. 14184 - 14191
Main Authors Wang, Yalei, Wang, Zhongshun, Chen, Chunning, Liu, Jiaqi, Lu, Jiaxin, Lu, Nan
Format Journal Article
LanguageEnglish
Published Washington American Chemical Society 26.09.2023
Subjects
Analytical chemistry
Arrays
Chemistry
Cost analysis
Detection limits
Electromagnetic fields
Epidermis
Fabrication
Nanoparticles
Polymers
Production costs
Pyramids
Raman spectra
Reproducibility
Silicon
Silicon substrates
Silver
Substrates
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Summary:Rapid extraction and analysis of target molecules from irregular surfaces are in high demand in the field of on-site analysis. Herein, a flexible platform used for surface-enhanced Raman scattering (SERS) based on an ordered polymer pyramid structure with half-imbedded silver nanoparticles (AgNPs) was prepared to address this issue. The fabrication includes the following steps: (1) creating inverted pyramid arrays in silicon substrate, (2) preparing a layer of AgNPs on the surface of the inverted pyramids, and (3) obtaining a substrate with an ordered polymer pyramids array with half-imbedded AgNPs by the molding method. This flexible substrate is capable of rapid extraction via a simple and convenient “paste and peel off” method. In addition, the substrate exhibits great repeatability and good sensitivity thanks to the uniformity and larger surface area of the ordered pyramids. The density of “hot spots” (local electromagnetic field with high intensity) is increased on the structured surface. Semi-imbedding silver particles in the polymer pyramids makes “hot spots” robust on the substrate. In addition, the preprepared silicon template with the inverted pyramids can be reused, which greatly reduces the production cost. With this substrate, we successfully analyzed thiram molecules on the epidermis of apples, cucumbers, and oranges, and the detection limits are 2.4, 3, and 3 ng/cm2, respectively. These results demonstrate the great potential of the substrate for in situ analysis, which can provide reference for the design of ideal SERS substrates.
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ISSN:0003-2700
1520-6882
DOI:10.1021/acs.analchem.3c01455