Butterfly wings could be used to inspire new technology in solar cells,
according to researchers at the Australian National University (ANU) who said
that "filtering" light could be a major feature of future solar projects.
Taking inspiration from the rare Peruvian butterfly, Morpho didius, which has
wings featuring tiny nanostructures that "scatter light to create a striking
blue iridescence," Dr. Niraj Lal from the ANU's Research School of Engineering
said similar, man-made nanostructures could be used to finely control the
direction of light in further experiments in the fields of architecture and even
stealth.
![](https://news.cgtn.com/news/3d596a4e776b7a4d/img/6515d827-af8f-438b-a6e1-bf0669bf740e.jpg)
Co-researcher Kevin Le from ANU with a blue Morpho butterfly and a solar cell. /Photo by Stuart Hay, ANU.
"There's a whole bunch of potential new applications using our light-control
technique, including next-generation solar cell, architectural and stealth
technologies," Lal said in a statement detailing the research on Wednesday.
"Techniques to finely control the scattering, reflection and absorption of
different colors of light are being used in the next generation of very
high-efficiency solar panels," he added, "Being able to make light go exactly where
you want it to go has proven to be tricky up until now."
Lal said the aim of the ANU's experiments was to absorb all of the blue, green
and ultraviolet colors of sunlight in the "perovskite" layer of a solar cell,
and all of the red, orange and yellow light in the "silicon" layer, known as a
tandem solar cell with double-decker layers.
![](https://news.cgtn.com/news/3d596a4e776b7a4d/img/0de83aec-9257-4d36-9f52-77c131a603ff.jpg)
Wing of morpho butterfly under microscope. /VCG Photo
He said perfecting this technique could open the door to applications in
architecture, whereby windows could filter certain colors of light, and stealth,
such as by making opaque objects transparent to certain colors and vice-versa.
"We were surprised by how well our tiny cone-shaped structures worked to direct
different colors of light where we wanted them to go," Lal said.
"Using our approach, a window could be designed to be transparent to some
colors non-see through and matte textured for others, so there are very cool
potential applications in architecture," he added.
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