Rethinking solar panel geometry beyond the traditional rectangle can unlock significant energy potential by optimizing coverage on complex, irregular rooflines.

Rethinking module geometry beyond the traditional rectangle could increase rooftop PV capacity on irregular buildings by improving packing efficiency and expanding placement options.

Tigo Energy, Inc. (NASDAQ: TYGO) ("Tigo," "Company"), a leading provider of intelligent solar and energy software solutions, today announced the Company’s presence as an exhibitor at the 2026 KEY – ...

Comstock Inc. and its subsidiary, Comstock Metals LLC, a leader in the responsible recycling of end-of-life solar panels and the only certified, ...

Comstock Inc. (NYSE: LODE) (“Comstock” or the “Company”) and its subsidiary, Comstock Metals LLC (“Comstock Metals”), a leader in the responsible recycling of end-of-life solar panels and the only ...

Comstock Inc. (NYSE: LODE) (“Comstock” or the “Company”) and its subsidiary, Comstock Metals LLC (“Comstock Metals”), a leader in the responsible ...

U.S. researchers are testing regenerative agrivoltaics at a farm in Southern California, combining solar panels with soil-restoring practices like composting, cover cropping, and no-till farming to ...

The footprint appears on the order of hundreds of meters to a couple of kilometers across (central pad ~100–200 m diameter, ...

Researchers at the Swiss Federal Institute of Technology in Lausanne (EPFL) have built a nanodevice that converts boiling ...

Because TOPCon modules have a lower temperature coefficient, they lose less power when the roof tiles or metal sheets heat up ...

Photoluminescence testing complements EL by using light-induced excitation rather than electrical current to detect material-level defects, contamination, and performance variations in solar wafers ...