The control of solar light and heat emission through windows is an important strategy for
increasing the energy efficiency of buildings. Reversible Zn electrodeposition has recently …

We designed a perovskite nanowire-based graphene plasmonic waveguide, where the
perovskite nanowire is located on the graphene-insulator-metal (GIM) platform. The finite …

Sodium (Na) is predicted to be an ideal plasmonic material with ultralow optical loss across
visible to near-infrared (NIR). However, there has been limited research on Na plasmonics …

The two-dimensional perovskites are emerging as an excellent material platform for various
optoelectronic devices such as solar cells, lasers, and photodetectors. Here, by combining …

Surface plasmons possess the capability to overcome the diffraction limit, making them
highly promising for a wide range of applications in the field of nanophotonics. Here we …

Ultra-deep subwavelength confinement and long propagation length are of large importance
for compact photonic integration. Nevertheless, the subwavelength confinement ability of …

Surface plasmon photonics provides a feasible method for achieving high-density photonic
integration and low-loss optical field transmission. Here we propose a sodium-based hybrid …

A unique graphene-based hybrid plasmonic waveguide (GHPW) is proposed with a
relatively high figure of merit (FOM) and long propagation length (L spp) in the far-infrared …

One of the remarkable choices for active smart window technology is adopting a metal active
layer via reversible metal electrodeposition (RME). As the metal layer efficiently blocks the …

The noble metal-based hybrid plasmon mode features low loss and strong field localization,
making it widely applicable in the field of nanophotonic devices. However, due to the high …