SERS and Indicator Paper Sensing of Hydrogen Peroxide Using Au@Ag Nanorods

The detection of hydrogen peroxide and the control of its concentration are important tasks in the biological and chemical sciences. In this paper, we developed a simple and quantitative method for the non-enzymatic detection of H O based on the selective etching of Au@Ag nanorods with embedded Rama...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2022-04, Vol.22 (9), p.3202
Main Authors: Khlebtsov, Boris N, Burov, Andrey M, Zakharevich, Andrey M, Khlebtsov, Nikolai G
Format: Article
Language:English
Subjects:
Au@Ag nanorods
Cellulose esters
Cellulose nitrate
Color
Colorimetry
Core-shell particles
etching
Gold
Gold - chemistry
Hydrogen Peroxide
Metal Nanoparticles - chemistry
Nanoparticles
Nanotubes
Oxidation
Sensitivity
Sensors
SERS
Silver
Spectrum Analysis, Raman - methods
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Summary:The detection of hydrogen peroxide and the control of its concentration are important tasks in the biological and chemical sciences. In this paper, we developed a simple and quantitative method for the non-enzymatic detection of H O based on the selective etching of Au@Ag nanorods with embedded Raman active molecules. The transfer of electrons between silver atoms and hydrogen peroxide enhances the oxidation reaction, and the Ag shell around the Au nanorod gradually dissolves. This leads to a change in the color of the nanoparticle colloid, a shift in LSPR, and a decrease in the SERS response from molecules embedded between the Au core and Ag shell. In our study, we compared the sensitivity of these readouts for nanoparticles with different Ag shell morphology. We found that triangle core-shell nanoparticles exhibited the highest sensitivity, with a detection limit of 10 M, and the SERS detection range of 1 × 10 to 2 × 10 M. In addition, a colorimetric strategy was applied to fabricate a simple indicator paper sensor for fast detection of hydrogen peroxide in liquids. In this case, the concentration of hydrogen peroxide was qualitatively determined by the change in the color of the nanoparticles deposited on the nitrocellulose membrane.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22093202