Static and dynamic tuning of surface plasmon resonance by controlling interparticle distance in arrays of Au nanoparticles

Static and dynamic tuning of plasmonic resonance in arrays of Au nanoparticles fabricated using self-assembly method on stretchable substrates was investigated. Static tuning was realized by altering the self-assembly conditions, which allowed varying average separation between Au nanoparticles and...

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Published inApplied surface science Vol. 480; pp. 846 - 850
Main Authors Mizuno, Ayana, Ono, Atsushi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 30.06.2019
Subjects
Metal nanoparticle array
Self-assembly
Stretchable
Surface plasmon
Tuning
Stretchable
Self-assembly
Surface plasmon
Metal nanoparticle array
Tuning
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Abstract Static and dynamic tuning of plasmonic resonance in arrays of Au nanoparticles fabricated using self-assembly method on stretchable substrates was investigated. Static tuning was realized by altering the self-assembly conditions, which allowed varying average separation between Au nanoparticles and tune their collective plasmon mode with a broad wavelength range. Dynamic tuning was achieved by applying uniaxial or biaxial strain to the Au nanoparticle arrays on a stretchable substrate. Plasmonic tunability and anisotropy were demonstrated by strain-controlled stretchable substrate. Spectral shifts of collective plasmon modes with strain were found to depend on incident polarization and interparticle distance. The obtained plasmonic nanostructures can be applied as mechanically tunable plasmonic optical filters and sensors. •The gold nanoparticle array on stretchable substrate was fabricated by self-assembly method.•The surface plasmon resonance was statically tuned by different toluene area coverage ratios during self-assembly method.•The surface plasmon resonance was dynamically tuned by applying uniaxial and biaxial strain to Au nanoparticle arrays.
AbstractList Static and dynamic tuning of plasmonic resonance in arrays of Au nanoparticles fabricated using self-assembly method on stretchable substrates was investigated. Static tuning was realized by altering the self-assembly conditions, which allowed varying average separation between Au nanoparticles and tune their collective plasmon mode with a broad wavelength range. Dynamic tuning was achieved by applying uniaxial or biaxial strain to the Au nanoparticle arrays on a stretchable substrate. Plasmonic tunability and anisotropy were demonstrated by strain-controlled stretchable substrate. Spectral shifts of collective plasmon modes with strain were found to depend on incident polarization and interparticle distance. The obtained plasmonic nanostructures can be applied as mechanically tunable plasmonic optical filters and sensors. •The gold nanoparticle array on stretchable substrate was fabricated by self-assembly method.•The surface plasmon resonance was statically tuned by different toluene area coverage ratios during self-assembly method.•The surface plasmon resonance was dynamically tuned by applying uniaxial and biaxial strain to Au nanoparticle arrays.
Author Ono, Atsushi
Mizuno, Ayana
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Snippet Static and dynamic tuning of plasmonic resonance in arrays of Au nanoparticles fabricated using self-assembly method on stretchable substrates was...
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SubjectTerms Metal nanoparticle array
Self-assembly
Stretchable
Surface plasmon
Tuning
Title Static and dynamic tuning of surface plasmon resonance by controlling interparticle distance in arrays of Au nanoparticles
URI https://dx.doi.org/10.1016/j.apsusc.2019.03.058
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