Resonant‐cavity‐enhanced electrochromic materials and devices
With rapid advances in optoelectronics, electrochromic materials and devices have received
tremendous attentions from both industry and academia for their strong potentials in …
tremendous attentions from both industry and academia for their strong potentials in …
[HTML][HTML] VO2 nanophotonics
The intriguing physics of vanadium dioxide (VO 2) makes it not only a fascinating object of
study for fundamental research on solid-state physics but also an attractive means to actively …
study for fundamental research on solid-state physics but also an attractive means to actively …
Tunable Mie-Resonant Dielectric Metasurfaces Based on VO2 Phase-Transition Materials
Dielectric metasurfaces have become efficient tools for creating ultrathin optical components
with various functionalities for imaging, holography, quantum optics, and topological …
with various functionalities for imaging, holography, quantum optics, and topological …
Space and time modulations of light with metasurfaces: recent progress and future prospects
In this Perspective, we discuss the different opportunities offered by time-modulated
metasurfaces for dynamic wavefront engineering and space-time photonics. Efforts in …
metasurfaces for dynamic wavefront engineering and space-time photonics. Efforts in …
[HTML][HTML] Plasmonics beyond noble metals: Exploiting phase and compositional changes for manipulating plasmonic performance
Reconfigurable plasmonics constitutes an exciting and challenging new horizon in
nanophotonics. This blooming field aims at providing plasmonic nanostructures that present …
nanophotonics. This blooming field aims at providing plasmonic nanostructures that present …
Microscopic mechanism and applications of radiative cooling materials: A comprehensive review
K Zhang, B Wu - Materials Today Physics, 2024 - Elsevier
This paper presents a state-of-the-art review on the microscopic mechanisms of existing
radiative cooling materials. In this review, we analyze the microscopic mechanisms of …
radiative cooling materials. In this review, we analyze the microscopic mechanisms of …
Reconfigurable flat optics with programmable reflection amplitude using lithography‐free phase‐change material ultra‐thin films
A very large dynamic optical reflection modulation from a simple unpatterned layered stack
of phase‐change material ultra‐thin films is experimentally demonstrated. Specifically, this …
of phase‐change material ultra‐thin films is experimentally demonstrated. Specifically, this …
Absorption modulation of quasi-BIC in Si–VO2 composite metasurface at near-infrared wavelength
H Dai, J Liu, J Ju, K Cheng - New Journal of Physics, 2023 - iopscience.iop.org
Bound states in the continuum (BIC) have attracted great attention in nanophotonics in the
past few years. The metasurface with inverted symmetry breaking exhibits high Q resonance …
past few years. The metasurface with inverted symmetry breaking exhibits high Q resonance …
Tunable optical anisotropy in epitaxial phase-change VO2 thin films
We theoretically and experimentally demonstrate a strong and tunable optical anisotropy in
epitaxially-grown VO2 thin films. Using a combination of temperature-dependent X-ray …
epitaxially-grown VO2 thin films. Using a combination of temperature-dependent X-ray …
Polymorphic gallium for active resonance tuning in photonic nanostructures: from bulk gallium to two-dimensional (2D) gallenene
Reconfigurable plasmonics is driving an extensive quest for active materials that can
support a controllable modulation of their optical properties for dynamically tunable …
support a controllable modulation of their optical properties for dynamically tunable …