Photonic metasurfaces, that is, two-dimensional arrangements of designed plasmonic or
dielectric resonant scatterers, have been established as a successful concept for controlling …

Metal nanoparticle arrays that support surface lattice resonances have emerged as an
exciting platform for manipulating light–matter interactions at the nanoscale and enabling a …

Light sources based on reliable and energy-efficient light-emitting diodes (LEDs) are
instrumental in the development of solid-state lighting (SSL). Most research efforts in SSL …

Light-emitting diodes (LEDs) are driving a shift toward energy-efficient illumination.
Nonetheless, modifying the emission intensities, colors and directionalities of LEDs in …

Conventional antennas, which are widely employed to transmit radio and TV signals, can be
used at optical frequencies as long as they are shrunk to nanometer-size dimensions …

We demonstrate the strong coupling of surface lattice resonances (SLRs)—hybridized
plasmonic/photonic modes in metallic nanoparticle arrays—to excitons in Rhodamine 6G …

We study the hybridized plasmonic-photonic modes supported by two-dimensional arrays of
metallic nanoparticles coupled to light-emitting optical waveguides. Localized surface …

We demonstrate that the coupling between light emitters in extended polymer layers and
modes supported by arrays of plasmonic particles can be selectively enhanced by accurate …

Surface lattice resonances (SLRs) are high quality factor resonances arising in periodic
arrays of nanoantennas that offer unique opportunities to enhance light–matter interactions …

Arrays of metallic nanoparticles support collective plasmonic resonances known as surface
lattice resonances (SLRs). The strong and delocalized electromagnetic fields associated …