Bendy, ultra-thin solar cell

Bendy, ultra-thin solar cell

ESA has backed the creation of this flexible, ultra-thin solar cell to deliver the best power to mass ratio for space missions.

Just about 0.02 mm thick – thinner than a human hair – the prototype solar cells were developed by Azur Space Solar Power in Germany and tf2 in the Netherlands; the cell seen here is from tf2. The project was backed through ESA’s Technology Development Element, investigating novel technologies for space.

Possessing up to 32% ‘end of life’ efficiency, the solar cells were produced using a technique called ‘epitaxial lift-off’, meaning they were peeled off the Germanium substrate layer they were initially laid down on, so the costly material can be reused.

Both triple- and quadruple-junction solar cells were manufactured. This means they consist of three or four different layers of material, optimised to make use of different wavelengths of light making up the solar spectrum.

These thinner-than-paper solar cells could be harnessed for future ESA satellites or else high-altitude pseudo satellites (HAPS) – uncrewed aircraft or balloons to perform satellite-like tasks from the upper atmosphere.

Related Links
Azur Space Solar Power
All About Solar Energy at

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Ultrathin organic solar cell is both efficient and durable
Tokyo, Japan (SPX) Mar 10, 2020
Scientists from the RIKEN Cluster for Pioneering Research and RIKEN Center for Emergent Matter Science have succeeded, in collaboration with international partners, in creating an ultrathin organic solar cell that is both highly efficient and durable. Using a simple post-annealing process, they created a flexible organic cell that degrades by less than 5 percent over 3,000 hours in atmospheric conditions and that simultaneously has an energy conversion ratio – a key indicator of solar cell perform … read more

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