We engineered an effective GO/Ag substrate with a highly controlled and uniform bilayer structure. The substrate was obtained by fine-tuning in the Ag nanocubes (AgNCs) self-assembly, followed by a controlled adsorption of GO sheets on the silver layer. Here the GO coating supplies the signal with additional amplification. The developed GO/AgNCs assemblies show a highly uniform signal distribution, which is ascribed to a homogeneous and soft arrangement of GO sheets over the AgNCs surface. The above characteristics make the GO/AgNCs substrate a reliable tool for detecting different compounds ranging from small molecules to complex biomolecules.
Graphene oxide/plasmon nanoparticles bilayers for optimized SERS detection / Banchelli, M.; De Angelis, M.; Pini, R.; Tiribilli, B.; Caminati, G.; Matteini, P.. - In: PROGRESS IN BIOMEDICAL OPTICS AND IMAGING. - ISSN 1605-7422. - STAMPA. - 9725:(2016), pp. 97250Q-97250Q. [10.1117/12.2214623]
Graphene oxide/plasmon nanoparticles bilayers for optimized SERS detection
BANCHELLI, MARTINA;DE ANGELIS, MARELLA;PINI, ROBERTO;CAMINATI, GABRIELLA;MATTEINI, PAOLO
2016
Abstract
We engineered an effective GO/Ag substrate with a highly controlled and uniform bilayer structure. The substrate was obtained by fine-tuning in the Ag nanocubes (AgNCs) self-assembly, followed by a controlled adsorption of GO sheets on the silver layer. Here the GO coating supplies the signal with additional amplification. The developed GO/AgNCs assemblies show a highly uniform signal distribution, which is ascribed to a homogeneous and soft arrangement of GO sheets over the AgNCs surface. The above characteristics make the GO/AgNCs substrate a reliable tool for detecting different compounds ranging from small molecules to complex biomolecules.
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