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 ...

Perovskites may sound like perogies or piroshkis, but no high-carb-cheese-and-potato-flavor-pocket can do what they do. They’re minerals that can do the same party trick as many of your favorite ...

To make these solar panels, Indian companies need PV cells—which are the small parts that convert sunlight into electricity. Since India doesn’t yet make enough of these cells on its own, it is ...

Halide perovskites are gaining ground on silicon as a critical material for solar cell technologies: A new study published in ...

One of the most interesting updates in the solar energy space comes from the Hebrew University of Jerusalem (via EES Solar), where researchers have developed 3D-printed, semi-transparent, flexible ...

A new study has revealed a surprisingly simple way to improve one of the biggest weaknesses of next-generation solar cells.

Dendrimers enable perovskite solar cells to recover from moisture damage by capturing key components, allowing repeatable self-healing without sacrificing efficiency. (Nanowerk Spotlight) Solar panels ...

Energy can never be created or destroyed. That's basic Physics 101. You simply cannot create energy out of thin air. Yet researchers at Kyushu University in Japan say they have developed a technology ...

For solar panels, wringing every drop of energy from as many photons as possible is imperative. This goal has sent chemistry, materials science and electronic engineering researchers on a quest to ...

Solar cells often degrade due to ultraviolet exposure, but scientists achieved 99.9% protection. How? The answer lies in this vegetable. When you purchase through links on our site, we may earn an ...