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Title Reversible tuning of visible wavelength surface lattice resonances in self-assembled hybrid monolayers
Date 03.05.2017
Number 51443
Abstract Periodic arrays of plasmonic nanostructures can support surface lattice resonances emerging from coupling between localized and diffractive modes. This allows the confinement of light at the nanometer scale with significantly increased resonance lifetimes as compared to those of purely localized modes. Here, we demonstrate that self-assembly of plasmonic hybrid nanoparticles allows the simple and fast fabrication of periodic plasmonic monolayers featuring macroscopic dimensions and easily controllable lattice spacings. Electromagnetic coupling between diffractive and localized modes is significantly enhanced when the arrays are embedded in a homogeneous refractive index environment. This is realized through spin-coating of a polymer film on top of the colloidal monolayer. Narrow surface lattice resonances are detected by far-field extinction spectroscopy while optical microscopy reveals a homogeneous coupling strength on cm-sized substrates. The surface lattice resonance position is changed by manipulation of the refractive index of the polymer film through the immersion into different organic solvents. Capitalizing on the thermoresponsive behavior of the polymer film we modulate the surface lattice resonance by temperature in a fully reversible, dynamic manner. The findings demonstrate the potential of colloidal self-assembly as a bottom-up approach for the fabrication of future nanophotonic devices.
URL http://dx.doi.org/10.1002/adom.201600971
Publisher Advanced Optical Materials
Identifier 0
Citation Advanced Optical Materials 5 (2017) ID1600971
DOI http://dx.doi.org/10.1002/adom.201600971
Authors Volk, K. ; Fitzgerald, J. P. S. ; Ruckdeschel, P. ; Retsch, M. ; König, T. ; Karg, M.
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