Attosecond science, the laser-led study of what happens to matter over very short timescales, could lead to major advances in ...

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

Academia Sinica today announced a breakthrough in next-generation solar cell technology that is about 30 percent more ...

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 ...

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

Enphase operates in a landscape that seems to be negatively affected by policy regulators on both sides of the Atlantic. Read ...

I went for a spin in the Aptera Solar EV, a solar-powered car that gets up to 40 miles of free range every day, at CES 2025 ...

Solar cell efficiency has since improved ... For the area, it is a fairly small amount of solar, but it could technically add a similar amount of range, around 15 miles, as Musk claimed the ...

So, they have a much broader range of applications than conventional silicon-based solar cells. And they are far less ...

Sandia National Laboratories achieved a record-breaking economic impact of $5.2 billion for 2024, surpassing the previous ...

They are based on electrodynamic tether technology integrating perovskite-copper indium gallium diselenide (CIGS) tandem solar cells ... to be stored in a reel of small radius, being compatible ...

Nature has always been a powerful source of inspiration, with inventors diving into the world around them for new ideas. From ...