Add to ORKGEnhanced fluorescence is observed from dye molecules interacting with optical nanoantenna arrays. Elliptical gold dimers form individual nanoantennae with tunable plasmon resonances depending upon the geometry of the two particles and the size of the gap between them. A fluorescent dye, Rhodamine 800, is uniformly embedded in a dielectric host that coats the nanoantennae. The nanoantennae act to enhance the dye absorption. In turn, emission from the dye drives the plasmon resonance of the antennae; the nanoantennae act to enhance the fluorescence signal and change the angular distribution of emission. These effects depend upon the overlap of the plasmon resonance with the excitation wavelength and the fluorescence emission band. A decreased...
Nanophotonics allows the manipulation of light on the subwavelength scale. Optical nanoantennas are...
The surface plasmon modes of metal nanoparticles provide a way to efficiently enhance the excitation...
We investigate the coupling of a single molecule to a single spherical gold nanoparticle acting as a...
Pairs of gold elliptical nanoparticles form antennae, resonant in the visible. A dye, embedded in a ...
We perform time-resolved fluorescence spectroscopy on clusters of plasmonic nanoantennas covered wit...
Optical nanoantennas are very efficient for manipulating and controlling light. These nanoantennas s...
We demonstrate a strong, 5-fold enhancement of the radiative decay rate from highly efficient fluore...
Paired metallic nanoparticles can show a strong optical resonance that depends strongly upon particl...
Photobleaching is an effect terminating the photon output of fluorophores, limiting the duration of ...
We demonstrate that the emission of light by fluorescent molecules in the proximity of periodic arra...
Nanoantennae show potential for photosynthesis research for two reasons; first by spatially confinin...
\u3cp\u3eNanoantennae show potential for photosynthesis research for two reasons; first by spatially...
We demonstrate a strong, 5-fold enhancement of the radiative decay rate from highly efficient fluore...
Nanophotonics allows the manipulation of light on the subwavelength scale. Optical nanoantennas are...
The surface plasmon modes of metal nanoparticles provide a way to efficiently enhance the excitation...
We investigate the coupling of a single molecule to a single spherical gold nanoparticle acting as a...
Pairs of gold elliptical nanoparticles form antennae, resonant in the visible. A dye, embedded in a ...
We perform time-resolved fluorescence spectroscopy on clusters of plasmonic nanoantennas covered wit...
Optical nanoantennas are very efficient for manipulating and controlling light. These nanoantennas s...
We demonstrate a strong, 5-fold enhancement of the radiative decay rate from highly efficient fluore...
Paired metallic nanoparticles can show a strong optical resonance that depends strongly upon particl...
Photobleaching is an effect terminating the photon output of fluorophores, limiting the duration of ...
We demonstrate that the emission of light by fluorescent molecules in the proximity of periodic arra...
Nanoantennae show potential for photosynthesis research for two reasons; first by spatially confinin...
\u3cp\u3eNanoantennae show potential for photosynthesis research for two reasons; first by spatially...
We demonstrate a strong, 5-fold enhancement of the radiative decay rate from highly efficient fluore...
Nanophotonics allows the manipulation of light on the subwavelength scale. Optical nanoantennas are...
The surface plasmon modes of metal nanoparticles provide a way to efficiently enhance the excitation...
We investigate the coupling of a single molecule to a single spherical gold nanoparticle acting as a...