The scalable design, which combines water-cooled aluminum panels and see-through, infrared-reflective thin polymer film, ...

A collaborative effort between NREL and CubicPV has yielded a perovskite minimodule with 24.0 percent certified efficiency, ...

AI-designed materials cool better than paint and save energy. Their uses span homes, clothes, and space tech. A new class of ...

An international team of researchers has developed porous plastic sheets that can lower building temperatures through radiative cooling.

Clouds play an important role in regulating the climate. Bright ones at low altitudes generally reflect solar energy away, ...

International researchers led by KAUST have developed a new cooling technology that improves the power and longevity of solar cells.

The combined reflective, radiative, and evaporative abilities of CCP-30 were clear: over the months, the new paint reflected up to 92 percent sunlight and dispersed 95 percent of heat as infrared ...

This experimental paint reflects sunlight, emits heat and mimics sweating to cool buildings without air conditioning, even in the tropics.

Radiational cooling during the nighttime can lead to drastically different temperatures, and in this week's Sunday Science meteorologist A.J. Mastrangelo explains why.

FIGURE 6 Schematic diagram for voltage and current readings of each panel. With the tracking prototype installed, the specific variables described in Table 2 were monitored, effectively comparing the ...

Understanding year-on-year solar radiation variability is critical for optimising solar projects, particularly amid climate change.

Radiational cooling is what gives us cooler nights. This can be especially true for areas in the desert and rural locations.