Chinese scientists have pushed perovskite tandem solar cells past the critical 30 percent efficiency ...

Perovskite solar cells shouldn’t work as well as they do—but they do. Scientists have now discovered that defects inside the material actually help, creating networks that separate and guide electric ...

Flexible solar panels are lightweight, portable and useful for curved surfaces, but they are not right for every setup. Here’s how they compare with standard panels ...

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

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

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 ...

How do organic solar cells work on the inside? The answer lies in structures far too small to see—and difficult to access even with advanced techniques. So far, researchers have relied mainly on X-ray ...

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

Researchers have developed a perovskite-organic tandem solar cell that achieves 26.4 percent efficiency. Unlike rigid silicon modules, the lightweight design can generate power on curved or flexible ...

The transparent four-terminal perovskite solar cell employs an ion-modulated spiro-MeOTAD hole transport layer, which passivates interfacial defects, enhances carrier dynamics, and allows for a ...

A group of researchers led by China's Lingnan University has fabricated an inverted perovskite solar cell through what they called a self-assembled monolayer (SAM) stabilization strategy. Inverted ...

Researchers at University of Queensland (UQ) have developed a new type of indoor solar panel that is safer, more ...