Radiative cooling is a passive cooling technology without any energy consumption,
compared to conventional cooling technologies that require power sources and dump waste …

Infrared (IR) adaptation phenomena are ubiquitous in nature and biological systems. Taking
inspiration from natural creatures, researchers have devoted extensive efforts for developing …

As a passive, effective, and renewable way of decreasing cooling energy requirements
without power input, radiative cooling has attracted considerable attention in the field of …

Optical metasurfaces with subwavelength thickness hold considerable promise for future
advances in fundamental optics and novel optical applications due to their unprecedented …

<? pag\vskip-16pt?> Harnessing linear and angular momenta of light is one of the
cornerstones in modern optics and has found tremendous applications in optical circuits …

In this article, novel samples of un-doped and fluorine-doped Sb 2 O 3 (FAO) thin films have
been synthesized utilizing the spray pyrolysis procedure. X-ray diffraction instrument has …

Daytime radiative coolers are used to pump excess heat from a target object into a cold
exterior space without energy consumption. Radiative coolers have become attractive …

Radiative cooling, a technology that lowers the temperature of terrestrial objects by
dissipating heat into outer space, presents a promising ecologically‐benign solution for …

Thermal emission is a ubiquitous and fundamental process by which all objects at non-zero
temperatures radiate electromagnetic energy. This process is often assumed to be …

By exploiting the 3 K coldness of outer space as heat sink of terrestrial thermal radiation,
passive daytime radiative cooling (PDRC) can achieve sub-ambient temperatures without …