The discovery of the photoelectric effect by Heinrich Hertz in 1887 set the foundation for over
125 years of hot carrier science and technology. In the early 1900s it played a critical role in …

Among the many novel photocatalytic systems developed in very recent years, plasmonic
photocatalytic composites possess great potential for use in applications and are one of the …

Plasmonic nanostructures have tremendous potential to be applied in photocatalytic CO2
reduction, since their localized surface plasmon resonance can collect low‐energy‐photons …

Circularly polarized light is utilized in various optical techniques and devices. However,
using conventional optical systems to generate, analyse and detect circularly polarized light …

In Förster resonance energy transfer (FRET), energy non-radiatively transfers from a blue-
shifted emitter to a red-shifted absorber by dipole–dipole coupling. This study shows that …

MXenes have recently shown impressive optical and plasmonic properties associated with
their ultrathin‐atomic‐layer structure. However, their potential use in photonic and plasmonic …

While the nonradiative decay of surface plasmons was once thought to be only a parasitic
process that limits the performance of plasmonic devices, it has recently been shown that it …

A reversible 2H-to-1T phase transition in a MoS2 monolayer is realized by plasmonic hot
electrons. This transition can be actively controlled by the incident light intensity …

Plasmon-induced hot-electron transfer from metal nanostructures is a potential new
paradigm for solar energy conversion; however, the reported efficiencies of devices based …

The use of surface plasmons, charge density oscillations of conduction electrons of metallic
nanostructures, to boost the efficiency of light-harvesting devices through increased light …