Long-range dipole–dipole interactions in a plasmonic lattice
Spontaneous emission of quantum emitters can be enhanced by increasing the local density
of optical states, whereas engineering dipole–dipole interactions requires modifying the two …
of optical states, whereas engineering dipole–dipole interactions requires modifying the two …
Up-to-five-photon upconversion from near-infrared to ultraviolet luminescence coupled to aluminum plasmonic lattices
The incorporation of upconversion luminescence (UCL) materials into various plasmonic
structures promotes light–matter interactions in nanophotonic systems. It has been …
structures promotes light–matter interactions in nanophotonic systems. It has been …
Experimental evidence of Förster energy transfer enhancement in the near field through engineered metamaterial surface waves
K Lezhennikova, K Rustomji, BT Kuhlmey… - Communications …, 2023 - nature.com
Plasmonics has been demonstrated to provide fine tuning of the emission properties of
single quantum sources (brightness, polarization, directivity, spectrum, lifetime…). However …
single quantum sources (brightness, polarization, directivity, spectrum, lifetime…). However …
Plasmon‐Molecule Interactions in Single‐Molecule Junctions
Single‐molecule optoelectronics offers opportunities for advancing integrated photonics and
electronics, which also serves as a tool to elucidate the underlying mechanism of light …
electronics, which also serves as a tool to elucidate the underlying mechanism of light …
Palladium zinc nanocrystals: nanoscale amalgamation enables multifunctional intermetallic colloids
O Yarema, A Moser, CW Chang… - Advanced Functional …, 2024 - Wiley Online Library
Intermetallic nanocrystals are emerging materials for energy, catalysis, and biomedical
applications, but combining two or more metals at the nanoscale remains challenging. The …
applications, but combining two or more metals at the nanoscale remains challenging. The …
Amplified Plasmonic Forces from DNA Origami-Scaffolded Single Dyes in Nanogaps
Developing highly enhanced plasmonic nanocavities allows direct observation of light–
matter interactions at the nanoscale. With DNA origami, the ability to precisely nanoposition …
matter interactions at the nanoscale. With DNA origami, the ability to precisely nanoposition …
Long-Range and High-Efficiency Plasmon-Assisted Förster Resonance Energy Transfer
The development of a long-range and efficient Förster resonance energy transfer (FRET)
process is essential for its application in key enabling optoelectronic and sensing …
process is essential for its application in key enabling optoelectronic and sensing …
Observation of Quasi-Invariant Photocarrier Lifetimes in PbS Nanocrystal Assemblies Coupled to Resonant and Nonresonant Arrays of Optical Antennas
P He, A Caillas, G Boulliard, I Hamdi, P Filloux… - ACS …, 2024 - ACS Publications
We examine, in the time domain, the influence of Au antenna arrays (ie, metasurfaces) on
thin films of near-infrared PbS nanocrystals that mutually interact via Förster resonance …
thin films of near-infrared PbS nanocrystals that mutually interact via Förster resonance …
Transferable Optical Enhancement Nanostructures by Gapless Stencil Lithography
Optical spectroscopy techniques are central for the characterization of two-dimensional (2D)
quantum materials. However, the reduced volume of atomically thin samples often results in …
quantum materials. However, the reduced volume of atomically thin samples often results in …
Resonance plasmonic coupling: selective enhancement of band edge emission over trap state emission of CdSe quantum dots
L Paul, EM Thomas, A Chemmangat, SK Gray… - Chemical …, 2024 - pubs.rsc.org
The photoluminescence properties of quantum dots (QDs) are often enhanced by
eliminating surface trap states through chemical methods. Alternatively, a physical approach …
eliminating surface trap states through chemical methods. Alternatively, a physical approach …