The nanoscale confinement and coupling of electromagnetic radiation into plexcitonic
modes has drawn immense interest because of the innovative possibilities for their …

Metallic nanoparticles supporting a localized surface plasmon resonance have emerged as
promising platforms for nanoscopic labels, sensors, and (photo-) catalysts. To use …

Direct femtosecond (fs) laser processing is a maskless fabrication technique that can
effectively modify the optical, electrical, mechanical, and tribological properties of materials …

This review provides a brief introduction to the physics of coupled exciton-plasmon systems,
the theoretical description and experimental manifestation of such phenomena, followed by …

Metasurfaces are two-dimensional nanoantenna arrays that can control the propagation of
light at will. In particular, plasmonic metasurfaces feature ultrathin thicknesses, ease of …

Spintronics and valleytronics are emerging quantum electronic technologies that rely on
using electron spin and multiple extrema of the band structure (valleys), respectively, as …

The understanding and engineering of the plasmon-exciton coupling are necessary to
control the innovative optoelectronic device platform. In this study, we investigated the …

Hybrid nanoscale systems with enhanced optical absorption or emission yields can be
created by coupling fluorophores, such as quantum dots (QDs), to metal nanoparticles (NPs) …

A multiple-mode metal-insulator-metal plasmonic sensor with four coupled bowtie
resonators containing two pairs of silver baffles is numerically investigated using the finite …

The dynamics of photons in fluorescent molecules plays a key role in fluorescence imaging,
optical sensing, organic photovoltaics, and displays. Photobleaching is an irreversible …