Add to ORKGMetal nanoparticle arrays that support surface lattice resonances have emerged as an exciting platform for manipulating light–matter interactions at the nanoscale and enabling a diverse range of applications. Their recent prominence can be attributed to a combination of desirable photonic and plasmonic attributes: high electromagnetic field enhancements extended over large volumes with long-lived lifetimes. This Review will describe the design rules for achieving high-quality optical responses from metal nanoparticle arrays, nanofabrication advances that have enabled their production, and the theory that inspired their experimental realization. Rich fundamental insights will focus on weak and strong coupling with molecular excitons, as well...
We demonstrate experimentally that plasmon resonant nanoparticle chains exhibit a nanoscale localize...
Metallic nanoparticles behave as tiny antennas for light. Light illuminating such a particle can dri...
International audienceLattice modes have been proposed as a means to engineer and control the linewi...
Metal nanoparticle arrays that support surface lattice resonances have emerged as an exciting platfo...
\u3cp\u3eArrays of metallic nanoparticles support collective plasmonic resonances known as surface l...
Metal nanoparticles interact strongly with light due to a resonant response of their free electrons....
International audienceWhen metal nanoparticles are arranged in an ordered array, they may scatter li...
Lasing at the nanometre scale promises strong light-matter interactions and ultrafast operation. Pla...
This Feature Article describes research on the optical properties of arrays of silver and gold nanop...
Plasmonic resonators are nanosized metallic antennas that convert electromagnetic waves at optical f...
A metallic nanoparticle array with a periodicity comparable to the single particle resonance can sho...
We demonstrate experimentally that plasmon resonant nanoparticle chains exhibit a nanoscale localize...
Metallic nanoparticles behave as tiny antennas for light. Light illuminating such a particle can dri...
International audienceLattice modes have been proposed as a means to engineer and control the linewi...
Metal nanoparticle arrays that support surface lattice resonances have emerged as an exciting platfo...
\u3cp\u3eArrays of metallic nanoparticles support collective plasmonic resonances known as surface l...
Metal nanoparticles interact strongly with light due to a resonant response of their free electrons....
International audienceWhen metal nanoparticles are arranged in an ordered array, they may scatter li...
Lasing at the nanometre scale promises strong light-matter interactions and ultrafast operation. Pla...
This Feature Article describes research on the optical properties of arrays of silver and gold nanop...
Plasmonic resonators are nanosized metallic antennas that convert electromagnetic waves at optical f...
A metallic nanoparticle array with a periodicity comparable to the single particle resonance can sho...
We demonstrate experimentally that plasmon resonant nanoparticle chains exhibit a nanoscale localize...
Metallic nanoparticles behave as tiny antennas for light. Light illuminating such a particle can dri...
International audienceLattice modes have been proposed as a means to engineer and control the linewi...