The exciton, an excited electron–hole pair bound by Coulomb attraction, plays a key role in
photophysics of organic molecules and drives practically important phenomena such as …

Fluorescence spectroscopy with strong emitters is a remarkable tool with ultra-high
sensitivity for detection and imaging down to the single-molecule level. Plasmon-enhanced …

Recent advances and the current status of challenging light-harvesting nanomaterials, such
as semiconducting quantum dots (QDs), metal nanoparticles, semiconductor–metal …

Previous attempts to review the literature on magnetic nanomaterials for hyperthermia-
based therapy focused primarily on magnetic fluid hyperthermia (MFH) using mono …

Electronic excitation energy transfer is ubiquitous in a variety of multichromophoric systems
and has been a subject of numerous investigations in the last century. Recently …

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

The dependence of quantum dot (QD) fluorescence emission on the proximity of 30 nm gold
nanoparticles (AuNPs) was studied with controlled interparticle distances ranging from 15 to …

Hematite nanorhombohedrons and nanoplates have been prepared through a hydrothermal
synthesis process. The nanoplates possess width of 100 nm and thickness of 30 nm …

In the last few decades, Förster resonance energy transfer (FRET) based spectroscopy
rulers have served as a key tool for the understanding of chemical and biochemical …

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 …