As the planet warms, kee** cool without releasing greenhouse gases will be a challenge,
but radiative cooling technology is poised to meet this goal. Hundreds of radiative cooling …

Passive radiative sub-ambient cooling is an emerging field of futuristic research and
development and has the potential to reduce water and electricity demands, and the …

Abstract Space cooling and heating currently result in huge amounts of energy consumption
and various environmental problems. Herein, a switching strategy is described for efficient …

An energy-free daytime radiative cooler based on silica-coated porous anodic aluminum
oxide is proposed, optimized, and experimentally realized. It is shown that a simple thin …

Transparency is an important characteristic in practical applications of radiative cooling, but
the transmitted sunlight trapped in an inner space is generally the main cause of the …

Passive daytime radiative cooling, which is a process that removes excess heat to cold
space as an infinite heat sink, is an emerging technology for applications that require …

Passive daytime radiative cooling (PDRC) devices have enabled subambient cooling of
terrestrial objects without any energy input, offering great potential to future clean energy …

Cooling demand in buildings accounts for a significant portion of global energy consumption
and is estimated to increase tenfold by 2050. Daytime radiative cooling shows great …

Radiative cooling (RC) can provide free cooling by emitting radiative heat into outer space.
This article presents the effects of solar radiation, non-radiative heat gains, atmospheric …

In the field of nanophotonics, metasurfaces have come to the forefront in real‐world
applications, owing to their accessible exotic optical properties that can be readily designed …