A new solar breakthrough may overcome a long-standing efficiency barrier. Researchers used a “spin-flip” metal complex to capture and multiply energy from sunlight through singlet fission. The result ...

A new “energy-multiplying” solar breakthrough could push efficiency beyond 100% and transform how we capture sunlight.

Carbon nanotube-based solar cells represent a promising frontier in photovoltaic research, harnessing the outstanding electronic, optical, and mechanical properties of carbon nanotubes (CNTs) to ...

In space, satellites face brutal temperature shifts from hot sunlight to freezing shadows. For ...

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 ...

A new bifacial solar cell architecture developed by researchers at Soochow University, Zhejiang Jinko ...

Solar power plays a major role in efforts to reduce dependence on fossil fuels and address climate change. The Sun delivers an immense amount of ...

Researchers in Singapore have developed fully vacuum-processed ultrathin perovskite solar cells with absorber layers as thin as 10 nm, achieving high transparency and stable efficiencies up to 12%.

Our research focuses on developing innovative materials that can improve solar cell technology. We specialize in creating new materials that can capture and transport solar energy more efficiently, ...

The result was certified by China’s National Photovoltaic Industry Metrology Test Center. The cell utilises a perovskite top ...

A single chemical additive applied during perovskite film deposition helped lift a perovskite-silicon tandem solar cell to a ...