Real-time tuning of plasmonic nanogap cavity resonances through solvent environments
Eunso Shin, Rachel E. Bangle, Maiken H. Mikkelsen

TL;DR
Researchers developed a way to adjust the optical properties of nanoscale structures in real time by changing the surrounding solvent, enabling versatile and precise control for photonic applications.
Contribution
A method for dynamically tuning nanogap cavity resonance wavelengths using solvent-induced refractive index changes, enabling precise and reversible control without altering the metasurface structure.
Findings
Resonance wavelengths of nanogap cavity metasurfaces were tuned by up to 300 nm using solvents with refractive indexes from 1.3 to 1.7.
High absorption efficiency (60–98%) was maintained over a broad wavelength range (1–5 µm) during tuning.
The metasurface showed no degradation after repeated tuning, suggesting robustness for adaptive optical systems.
Abstract
Nanogap cavity metasurfaces – an array of metallic nanoparticles separated from a metal plane by a nanometer-scale dielectric material – can manipulate electromagnetic waves across a wide wavelength range. Through this, they can profoundly modify the optical processes of molecules and materials relevant to quantum communications, photocatalysis, and optoelectronics. Interactions between nanocavities and light, however, require overlap between the cavity resonance and the energy of the incident photon or optical transition, demanding labor-intensive fabrication of bespoke metasurfaces for each desired application. Here, we dynamically tune the resonance wavelength of nanogap cavity metasurfaces by modulating the refractive index of the surrounding medium using solvents. We achieve precise, reversible, and broadband resonance control for narrow nanogap cavity resonances (full width half…
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Taxonomy
TopicsPlasmonic and Surface Plasmon Research · Photonic and Optical Devices · Gold and Silver Nanoparticles Synthesis and Applications
