A recent study from the University of Michigan investigated the impact of proton radiation — a major threat in space — on ...

Conventional silicon solar cells degrade rapidly in space, and gallium arsenide cells are heavy and inflexible. Research from ...

Radiation testing suggests that solar cells made from carbon-based, or organic, materials could outperform conventional silicon and gallium arsenide for generating electricity in the final frontier, a ...

have identified and eliminated a previously unknown loss mechanism in organic solar cells that makes them more efficient and ...

Organic solar cells demonstrate potential advantages over silicon and gallium arsenide in space, withstanding proton ...

Researchers enhance organic solar cells, achieving 18% efficiency and 16-year lifespan, paving the way for durable, scalable ...

Researchers at Åbo Akademi University in Finland have identified and eliminated a previously unknown loss mechanism in ...

Researchers at Åbo Akademi University in Finland have identified and eliminated a previously unknown loss mechanism in ...

University of Michigan researchers study on radiation testing shows that solar cells from carbon-based materials.

Akademi researchers have enhanced inverted organic solar cells, achieving over 18% efficiency and 24,700 hours of operational ...

Radiation testing suggests that solar cells made from carbon-based materials could outperform conventional silicon for ...

Researchers have made a significant breakthrough in organic solar cell technology, addressing a key challenge that has hindered their efficiency and stability. A group from Finland’s Abo Akademi ...