Perovskite solar cells (PSCs) are known for their impressive ability to convert sunlight into energy, their low production ...

Solar cells face significant challenges when deployed in outer space, where extremes in the environment decrease the efficiency and longevity they enjoy back on Earth. University of Toledo physicists ...

Researchers in Australia have developed a new laser-based technique that allows them to observe ...

Canada’s UBC creates bacteria‑powered solar cells that generate strong current and work even in dim, cloudy light—an affordable leap for photovoltaics.

Researchers have developed a perovskite-organic tandem solar cell that achieves 26.4 percent efficiency. Unlike rigid silicon modules, the lightweight design can generate power on curved or flexible ...

By protecting the surface during heating, the team reduced the chance that tiny flaws would grow into long-term failures.

UNSW engineers have made a major step forward in the development of a new type of solar cell that could help make future ...

Perovskite solar cells have long been the most exciting “almost there” technology in clean ...

Researchers from KAUST, TU Delft, and LMU Munich have improved the performance of monolithic perovskite-silicon tandem solar cells by modifying the physical structure at the front of the bottom ...

The Australian scientists designed the cell with a sodium sulfide additive to achieve uniform sulfur and selenium distribution, improving charge transport. This controlled elemental layering reduces ...

Our research focuses on developing innovative materials that can improve solar cell technology. We specialize in creating new materials that can capture and transport solar energy more efficiently, ...