Energy

Bumpy solar cells could harvest up to 66% more energy

Bumpy solar cells could harvest up to 66% more energy
A new solar cell design consisting of "hemispheres" on the surface, like braille dots, could improve efficiency
A new solar cell design consisting of "hemispheres" on the surface, like braille dots, could improve efficiency
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A new solar cell design consisting of "hemispheres" on the surface, like braille dots, could improve efficiency
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A new solar cell design consisting of "hemispheres" on the surface, like braille dots, could improve efficiency
A cross section of the domes on the new solar cell surface
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A cross section of the domes on the new solar cell surface

Solar cell efficiency may get a bump from bumps. New research suggests that building tiny domes into the surface of organic solar cells could boost their efficiency by up to two-thirds, while capturing light from a wider angle.

Solar cells are usually flat, which maximizes how much of the surface is exposed to sunlight at any given time. This design works best when the Sun is within a certain angle, so the panels are usually tilted between 15 and 40 degrees to get the most out of the day.

Scientists have toyed with other shapes for the surface, including embedding spherical nanoshells of silica which trap and circulate sunlight to allow the device to capture more energy from it. For the new study, scientists at Abdullah Gül University in Türkiye ran complex simulations of how dome-shaped bumps might boost organic solar surfaces.

The team studied photovoltaic cells made with an organic polymer called P3HT:ICBA as the active layer, above a layer of aluminum and a substrate of PMMA, capped off with a transparent protective layer of indium tin oxide (ITO). This sandwich structure was kept through the whole dome, or “hemispherical shell” as the team calls it.

A cross section of the domes on the new solar cell surface
A cross section of the domes on the new solar cell surface

The researchers conducted what’s called a 3D finite element analysis (FEA), which breaks down the elements of a complex system into manageable chunks so they can be better simulated and analyzed.

Compared to flat surfaces, solar cells dotted with bumps showed 36% and 66% improvements in light absorption, depending on the polarization of the light. Those bumps also allowed light to enter from a wider range of directions than a flat surface, providing an angular coverage of up to 82 degrees.

While the team hasn’t actually built physical versions of these solar cells yet, if the principle does work it could be useful not only for rooftop solar but in systems with changing light conditions, like wearable electronics.

“With the improved absorption and omnidirectionality characteristics, the proposed hemispherical-shell-shaped active layers will be found beneficial in various application areas of organic solar cells, such as biomedical devices, as well as applications such as power-generation windows and greenhouses, internet-of-things, and so on,” said Professor Dooyoung Hah, author of the study.

The research was published in the Journal of Photonics for Energy.

Source: SPIE

8 comments
8 comments
Stanislaw W. Zolczynski
Nihil novi sub sole. Digital camera sensors like Leica are using spheres covering pixels to offset vigneting at edges due to oblique rays coming from wideangle lenses.
TechGazer
Greater gain compared to _flat cells_. How does it compare to flat cells with the usual (inexpensive) prismatic coatings meant to capture sunlight at greater angles?
jimbo92107
Best part is, these panels come with their own warning in braille: "Warning! These panels are scalding hot!"
Jinpa
No explanation for why this should work only on organic solar cells.
Expanded Viewpoint
Many years ago, Gizmag had an article about using lensing to capture more solar light energy per square foot or meter, whichever you prefer. Hmmm... this just gave me an idea...
greg
this is great news. I hope they can get this to market and help speed the renewables transition. That said, I do wonder how this impacts the panels getting dirty, and then how easily they can get clean again. I'm sure thats at least somewhat of an issue. Hopefully the positive outweighs the negative.
windykites
There was a company in the US called Solyndra, which went bust. They had a lenticular panel of some sort.
Solar will never provide a sufficient amount of energy, and of course it is intermittent.
dave be
Solar already provides 'sufficient energy' , almost all the energy we use is solar based whether its solar, wind, hydro, or fossil fuels it all comes from the solar source. We 've just been bad at capturing it and using it in a clean and efficient manner. We're getting a lot better however.