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

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

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

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

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

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 ...

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 at Åbo Akademi University in Finland have identified and eliminated a previously unknown loss mechanism in organic solar cells that makes them more efficient and gives them a longer ...

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

Researchers at City University of Hong Kong have developed a monolithic perovskite-organic tandem solar cell with a wide-bandgap subcell that reportedly provides “remarkable” stability.