Mie-resonant metaphotonics is a rapidly developing field that employs the physics of Mie
resonances to control light at the nanoscale. Mie resonances are excited in high-refractive …

Label‐free super‐resolution (LFSR) imaging relies on light‐scattering processes in
nanoscale objects without a need for fluorescent (FL) staining required in super‐resolved FL …

The lack of safe and efficient hydrogen storage is a major bottleneck for large‐scale
application of hydrogen energy. Reversible hydrogen storage of light‐weight metal hydrides …

Nanophotonics is an important branch of modern optics dealing with light–matter interaction
at the nanoscale. Nanoparticles can exhibit enhanced light absorption under illumination by …

Metasurfaces are ultrathin nanostructured surfaces that can allow arbitrary manipulation of
light. Implementing dynamic tunability into their design could allow the optical functions of …

In the last decades, metasurfaces have attracted much attention because of their
extraordinary light-scattering properties. However, their inherently static geometry is an …

The concentration and manipulation of light in the nanoscale range are fundamental to
nanophotonic research. Plasmonic nanoparticles can localize electromagnetic waves within …

Dynamic access to quasi-bound states in the continuum (q-BICs) offers a highly desired
platform for silicon-based active nanophotonic applications, while the prevailing tuning …

A multipolar silicon-based resonant meta-surface scheme is proposed and numerically
presented via intercalating oblique slits into the silicon patches, leading to an ultra-sharp …

The burgeoning of artificial intelligence has brought great convenience to people's lives as
large-scale computational models have emerged. Artificial intelligence-related applications …