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| Naji, M. |
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| Ertürk, Emre |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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Yan, Wei
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Publications (9/9 displayed)
- 2023Flexible Vanadium Dioxide Photodetectors for Visible to Longwave Infrared Detection at Room Temperaturecitations
- 2022Single fibre enables acoustic fabrics via nanometre-scale vibrationscitations
- 2021Second harmonic generation in glass-based metasurfaces using tailored surface lattice resonancescitations
- 2018Superelastic multimaterial electronic and photonic fibers and devices via thermal drawingcitations
- 2017Semiconducting Nanowire-Based Optoelectronic Fiberscitations
- 2017Controlled Sub‐Micrometer Hierarchical Textures Engineered in Polymeric Fibers and Microchannels via Thermal Drawingcitations
- 2014High-voltage insulation organic-inorganic nanocomposites by plasma polymerizationcitations
- 2013Blueshift of the surface plasmon resonance in silver nanoparticles: substrate effectscitations
- 2013Green's function surface-integral method for nonlocal response of plasmonic nanowires in arbitrary dielectric environmentscitations
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article
Blueshift of the surface plasmon resonance in silver nanoparticles: substrate effects
Abstract
We study the blueshift of the surface plasmon (SP) resonance energy of isolated Ag nanoparticles with decreasing particle diameter, which we recently measured using electron energy loss spectroscopy (EELS) [1]. As the particle diameter decreases from 26 down to 3.5 nm, a large blueshift of 0.5 eV of the SP resonance energy is observed. In this paper, we base our theoretical interpretation of our experimental findings on the nonlocal hydrodynamic model, and compare the effect of the substrate on the SP resonance energy to the approach of an effective homogeneous background permittivity. We derive the nonlocal polarizability of a small metal sphere embedded in a homogeneous dielectric environment, leading to the nonlocal generalization of the classical Clausius–Mossotti factor. We also present an exact formalism based on multipole expansions and scattering matrices to determine the optical response of a metal sphere on a dielectric substrate of finite thickness, taking into account retardation and nonlocal effects. We find that the substrate-based calculations show a similar-sized blueshift as calculations based on a sphere in a homogeneous environment, and that they both agree qualitatively with the EELS measurements.