The singlet fission experiment captured energy with high efficiency. (Kyushu University) Scientists are always pushing the boundaries of solar cell efficiency – how much of the available sunshine gets ...

A new process uses a porous substrate to absorb stray photons and recapture their energy. This approach may allow for the manufacture of cells that can be made from smaller quantities of semiconductor ...

Researchers from the Hong Kong Polytechnic University have developed an agentic robotics system for ...

Solar cells, devices that convert sunlight into electricity, are now widely used in many countries. While most existing solar ...

An international research team has developed an AI-driven robotic platform that autonomously designs, fabricates, and ...

For decades, the solar industry has run on one material: silicon. It works, it is cheap, and it keeps getting slightly better ...

The four-terminal tandem device relies on FAPbI₃ nanoparticles and a spectral splitting design, combining a 24.4% wide-bandgap top cell and a 21.5% narrow-bandgap bottom cell to reach 30.2% efficiency ...

As countries around the world strive to reduce their carbon footprints and seek sustainable energy resources, the solar energy industry has experienced significant growth. Among the diverse process ...

A technique that improves the performance and stability of next-generation solar cells—without adding any chemicals or ...

A study carried out at the Federal University of ABC (UFABC), in the state of São Paulo, Brazil, presents a new way to mitigate the rapid degradation of perovskite solar cells. The problem, which ...