Japanese scientists create new spin-flip material that could boost solar panel efficiency by up to 130%.

Imagine a display that harvests ambient light when it is not actively in use, offsetting some of its own energy consumption.

A single photon goes in. Roughly 1.3 usable energy carriers come out. That is the result reported in May 2026 by a team at ...

Perovskite solar cells, PSCs, have emerged as one of the most promising renewable energy technologies of the past decade.

An international research team has proposed a perovskite solar cell architecture incorporating a thin tetraphenyl-porphine ...

Illustration of all-organic solar cells and power conversion efficiencies of AOSCs described in the present study and previous reports. As global efforts to combat climate change continue, demand for ...

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 ...

A tiny change at the solar cell surface could unlock much higher efficiency, stronger stability, and more reliable ...

A new model shows how transport resistance limits solar cell efficiency and how better fill factor predictions could help us develop more powerful photovoltaics One light bulb turned on (Courtesy: ...

Discover how portable solar chargers, solar leaf chargers, and solar power banks make everyday renewable energy gadgets practical for phones, travel, and emergencies with clear, objective guidance.