Do you love solar panels, but hate the color blue? You’re in luck – researchers in the Netherlands have developed a process for making conventional solar panels bright green, and they’re working on developing other colors as well. By making the panels more appealing, they hope to entice more people and businesses to invest in clean energy.

solar panels, nanotubes, go green, AMOLF institute, solar energy, energy efficiency,

Researchers at AMOLF devised a method of imprinting solar panels with silicon nanopatterns that make them appear green. Though the process decreases the efficiency by 10 percent, it’s considered to be an acceptable trade-off if the panels are installed on more buildings. Said Verena Neder, lead author of the paper and researcher at AMOLF, “The black appearance of the [conventional] solar panels is not attractive for many people and a reason to not put solar panels on their rooftop. Making solar cells colored makes it possible to integrate them in an architectural design of houses and full cities, but also to merge them in the landscape.”

solar panels, nanotubes, go green, AMOLF institute, solar energy, energy efficiency,

CleanTechnica reports that to turn the panels green, researchers “use soft imprint lithography to apply a dense array of silicon nanotubes onto the surface of solar cells.” At approximately 100 nanometers wide, each nanotube is carefully shaped to scatter a certain wavelength of light. The cells appear green to observers, and the color is constant regardless of where one is standing. “The structure we made is not very sensitive to the angle of observation, so even if you look at it from a wide angle, it still appears green,” said Neder.

solar panels, nanotubes, go green, AMOLF institute, solar energy, energy efficiency,

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Because the color can be adjusted by altering the geometry of the nanotubes, the researchers have started planning imprints that create red and blue solar colors. After the three primary colors of light are developed, they will be able to create any color — including white. “You have to combine different nanoparticles, and if they get very close to each other they can interact and that will affect the color,” said Albert Polman, a scientific group leader at AMOLF. “Going to white is a really big step.”

The technology could make it possible to create tandem solar cells which are stacked in layers. Each layer would be fine tuned to absorb certain portions of the electromagnetic spectrum. Theoretically, this could result in sunlight conversion efficiencies of 30 percent more. Considering commercially available solar cells are about 20 percent efficient, this could be a game-changer for the renewable energy industry. Affirmed Neder, “The new method to change the color of the panels is not only easy to apply but also attractive as an architectural design element and has the potential to widen their use.”

+ AIP Applied Physics Letters

+ AMOLF

Via Clean Technica

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