Atomic layer deposition (ALD) is a method of choice for the growth of highly conformal thin
films with accurately controlled thickness on planar and nanostructured surfaces. These …

Smart radiative cooling devices based on thermochromic materials such as vanadium
dioxide (VO2) are of practical interest for temperature regulation and artificial homeostasis …

Plasmonic nanostructures are emerging as a promising avenue for nanophotonics due to
their extreme light and thermal confinement, ultrafast manipulation processes, and potential …

Optical limiting is desirable or necessary in a variety of applications that employ high-power
light sources or sensitive photodetectors. However, the most prevalent methods compromise …

Actively tunable optical materials integrated with engineered subwavelength structures
could enable novel optoelectronic devices, including reconfigurable light sources and …

The unique structural transition of VO2 between dielectric and metallic phases has
significant potential in optical and electrical applications ranging from volatile switches and …

In recent years, there has been significant fundamental research into surface phonon
polaritons, owing to their ability to compress light to extremely small dimensions, low losses …

Vanadium dioxide (VO2) is a multifunctional material with semiconductor-to-metal transition
(SMT) property. Organic vanadium compounds are usually employed as ALD precursors to …

The present study is focused on the investigation at 400 K of the tetragonal-rutile phase of Cr-
doped VO 2 (CVO) thin films grown by pulsed laser deposition. Synchrotron-based x-ray …

Inkjet‐printable VO 2 inks were developed for fabrication of infrared thermochromic VO 2
nanoparticle films on the nanoporous polyethylene (nanoPE) substrates. The surface …