Researchers used a synthetic version of moon dust to build working solar panels, which could eventually be created within – ...

The case for having a permanent base on the moon as a staging point for space exploration has been made many times over the ...

The approach stabilizes rubidium in wide-bandgap perovskites, minimizing non-radiative recombination and pushing efficiency to new heights.

Researchers at EPFL have found a way to dramatically reduce energy loss and boost efficiency in perovskite solar cells by ...

A future Moon base is closer to reality than ever before. With missions like Artemis 3 planned for 2026 and a lunar outpost ...

The same dirt that clings to astronauts' boots may one day keep their lights on. Researchers created solar cells made out of simulated Moon dust. The cells convert sunlight into energy efficiently, ...

"Providing pathways to creating better devices." Researchers make revolutionary discovery that could transform how we ...

A greenhouse with a perovskite solar cell rooftop led to faster growth and larger leaves in radicchio seedlings ...

The country developed perovskite solar panels are not only more efficient than regular panels, but also have potential to ...

Unlike conventional silicon-based solar cells, perovskite solar cells (PSCs) are not only thin and lightweight, but can also be seamlessly applied to curved surfaces, like building facades and vehicle ...

Summary Achieving higher open-circuit voltages and fill factors in perovskite solar cells (PSCs) involves minimizing defects between layers and ...