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: ...

"We've now settled a fundamental question." Scientists make AI-powered breakthrough that could revolutionize solar panels: ...

Researchers at the University of New South Wales in Sydney are working with the institution’s spinoff company BT Imaging to ...

The tandem device is based on a bottom thin-film heterojunction cell that can bend and a top perovskite cell that can be manufactured with a low-temperature process to prevent damage. It achieved the ...

While most solar cells on the market today are based on silicon, energy engineers have recently been assessing the ...

A research team led by Prof. Mingtai Wang at the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has developed a finely tuned method for growing titanium dioxide nanorod arrays ...

KAUST developed a cooling technology that improves the longevity and power output of a solar cell. Image: KAUST. As solar projects spread across the world, it is no longer uncommon to see a project ...

Toyo Solar plans to transport its cells to a module manufacturing facility in the US. Image: Toyo Solar. Japanese cell and module manufacturer Toyo Solar plans to double its annual solar PV cell ...

Solar energy is a crucial part of our clean energy future, but a new, highly efficient solar material has a hurdle that needs to be addressed. A recent study reveals how a microscopic weak spot can ...