Hybrid Wetting Surface with Plasmonic Alloy Nanocomposites for Sensitive SERS Detection

In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application. This surface was fabricated in a large area by facile electrospinning, plasma etching and photomask-assisted sputtering processes. The high-den...

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Published inMolecules (Basel, Switzerland) Vol. 28; no. 5; p. 2190
Main Authors Wang, Shanjiang, Su, Dan, Zhou, Huanli, Jiang, Xiaohan, Zhang, Xiaoyang, Zhang, Tong
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 27.02.2023
MDPI
Subjects
Alloys
Communication
condensation effects
Contact angle
Design
Electromagnetic fields
Electromagnetism
hot spots
hybrid wetting surface
Hydrophobic surfaces
Morphology
Nanocomposites
Nanoparticles
Plasma etching
Reproducibility
sensor-based applications
Sensors
SERS
Silicon wafers
Specialty metals industry
Spectrum analysis
United States
hot spots
condensation effects
sensor-based applications
SERS
hybrid wetting surface
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Abstract In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application. This surface was fabricated in a large area by facile electrospinning, plasma etching and photomask-assisted sputtering processes. The high-density ‘hot spots’ and rough surface from plasmonic alloy nanocomposites promoted the significant enhancement of the electromagnetic field. Meanwhile, the condensation effects induced by HWS further improved the density of target analytes at the SERS active area. Thus, the SERS signals increased ~4 orders of magnitude compared to the normal SERS substrate. In addition, the reproducibility, uniformity, as well as thermal performance of HWS were also examined by comparative experiments, indicating their high reliability, portability and practicability for on-site tests. The efficient results suggested that this smart surface had great potential to evolve as a platform for advanced sensor-based applications.
AbstractList In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application. This surface was fabricated in a large area by facile electrospinning, plasma etching and photomask-assisted sputtering processes. The high-density 'hot spots' and rough surface from plasmonic alloy nanocomposites promoted the significant enhancement of the electromagnetic field. Meanwhile, the condensation effects induced by HWS further improved the density of target analytes at the SERS active area. Thus, the SERS signals increased ~4 orders of magnitude compared to the normal SERS substrate. In addition, the reproducibility, uniformity, as well as thermal performance of HWS were also examined by comparative experiments, indicating their high reliability, portability and practicability for on-site tests. The efficient results suggested that this smart surface had great potential to evolve as a platform for advanced sensor-based applications.
In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application. This surface was fabricated in a large area by facile electrospinning, plasma etching and photomask-assisted sputtering processes. The high-density 'hot spots' and rough surface from plasmonic alloy nanocomposites promoted the significant enhancement of the electromagnetic field. Meanwhile, the condensation effects induced by HWS further improved the density of target analytes at the SERS active area. Thus, the SERS signals increased ~4 orders of magnitude compared to the normal SERS substrate. In addition, the reproducibility, uniformity, as well as thermal performance of HWS were also examined by comparative experiments, indicating their high reliability, portability and practicability for on-site tests. The efficient results suggested that this smart surface had great potential to evolve as a platform for advanced sensor-based applications.In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application. This surface was fabricated in a large area by facile electrospinning, plasma etching and photomask-assisted sputtering processes. The high-density 'hot spots' and rough surface from plasmonic alloy nanocomposites promoted the significant enhancement of the electromagnetic field. Meanwhile, the condensation effects induced by HWS further improved the density of target analytes at the SERS active area. Thus, the SERS signals increased ~4 orders of magnitude compared to the normal SERS substrate. In addition, the reproducibility, uniformity, as well as thermal performance of HWS were also examined by comparative experiments, indicating their high reliability, portability and practicability for on-site tests. The efficient results suggested that this smart surface had great potential to evolve as a platform for advanced sensor-based applications.
Audience Academic
Author Jiang, Xiaohan
Zhang, Xiaoyang
Wang, Shanjiang
Zhang, Tong
Su, Dan
Zhou, Huanli
AuthorAffiliation 1 School of Materials Science and Engineering, Nanjing Tech University, Nanjing 210009, China
2 Joint International Research Laboratory of Information Display and Visualization, School of Electronic Science and Engineering, Southeast University, Nanjing 210096, China
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Issue 5
Keywords hot spots
condensation effects
sensor-based applications
SERS
hybrid wetting surface
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Snippet In this paper, a hybrid wetting surface (HWS) with Au/Ag alloy nanocomposites was proposed for rapid, cost-effective, stable and sensitive SERS application....
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SubjectTerms Alloys
Communication
condensation effects
Contact angle
Design
Electromagnetic fields
Electromagnetism
hot spots
hybrid wetting surface
Hydrophobic surfaces
Morphology
Nanocomposites
Nanoparticles
Plasma etching
Reproducibility
sensor-based applications
Sensors
SERS
Silicon wafers
Specialty metals industry
Spectrum analysis
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Title Hybrid Wetting Surface with Plasmonic Alloy Nanocomposites for Sensitive SERS Detection
URI https://www.ncbi.nlm.nih.gov/pubmed/36903436
https://www.proquest.com/docview/2785216591
https://www.proquest.com/docview/2786095377
https://pubmed.ncbi.nlm.nih.gov/PMC10004610
https://doaj.org/article/16f6ab656afb409083f66f3ddb6c8e46
Volume 28
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