Rotation of single-molecule emission polarization by plasmonic nanorods
T Zuo, HJ Goldwyn, BP Isaacoff… - The journal of …, 2019 - ACS Publications
The strong light–matter interactions between dyes and plasmonic nanoantennas enable the
study of fundamental molecular-optical processes. Here, we overcome conventional …
study of fundamental molecular-optical processes. Here, we overcome conventional …
Model-based insight into single-molecule plasmonic mislocalization
T Zuo, HJ Goldwyn, DJ Masiello… - The Journal of Physical …, 2021 - ACS Publications
Noble metal nanoparticles act as visible-wavelength antennas that reshape the emission of
nearby dye molecules. Because single-molecule imaging overcomes ensemble averaging …
nearby dye molecules. Because single-molecule imaging overcomes ensemble averaging …
Plasmon-controlled fluorescence: beyond the intensity enhancement
Control over light absorption and emission using plasmonic nanostructures is an enabling
technology, which can dramatically enhance the performances of existing optical and …
technology, which can dramatically enhance the performances of existing optical and …
Resonant plasmonic enhancement of single-molecule fluorescence by individual gold nanorods
Enhancing the fluorescence of a weak emitter is important to further extend the reach of
single-molecule fluorescence imaging to many unexplored systems. Here we study …
single-molecule fluorescence imaging to many unexplored systems. Here we study …
Tailoring Fluorescence–Phosphorescence Emission with a Single Nanocavity
W Peng, YH Wang, J He, JL Yang, J Wang… - Journal of the …, 2023 - ACS Publications
Realizing the dual emission of fluorescence–phosphorescence in a single system is an
extremely important topic in the fields of biological imaging, sensing, and information …
extremely important topic in the fields of biological imaging, sensing, and information …
Wavelength-dependent super-resolution images of dye molecules coupled to plasmonic nanotriangles
The emission properties of fluorescent molecules are strongly affected by proximal
plasmonic nanoparticles that act as optical nanoantennas. In particular, fluorescence …
plasmonic nanoparticles that act as optical nanoantennas. In particular, fluorescence …
Spectrally-resolved polarization anisotropy of single plasmonic nanoparticles excited by total internal reflection
Polarization-resolved optical studies of individual plasmonic nanoparticles are valuable for
providing orientation information about anisotropic plasmonic nanostructures, such as …
providing orientation information about anisotropic plasmonic nanostructures, such as …
Mode-dependent energy exchange between near-and far-field through silicon-supported single silver nanorods
Optical antenna effects endow plasmonic nanoparticles with the capability to enhance and
control various types of light–matter interaction. Most reported plasmonic systems can be …
control various types of light–matter interaction. Most reported plasmonic systems can be …
Experimental evidence of plasmophores: plasmon-directed polarized emission from gold nanorod–fluorophore hybrid nanostructures
We show that the fluorescence emission from individual hybrid nanostructures composed of
Au nanorod cores and oxazine 725-embedded mesostructured silica shells is strongly …
Au nanorod cores and oxazine 725-embedded mesostructured silica shells is strongly …
Polarization multiplexing of fluorescent emission using multiresonant plasmonic antennas
Combining the ability to localize electromagnetic fields at the nanoscale with a directional
response, plasmonic antennas offer an effective strategy to shape the far-field pattern of …
response, plasmonic antennas offer an effective strategy to shape the far-field pattern of …