Ultra-high resolution images of butterfly wing crystals offer clues to how nano-scale structures form

People of all backgrounds are captivated by butterflies—

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their bright colors and lackadaisical lifestyle of flitting from flower to flower tend to elicit smiles and warm feelings. And while a general understanding of the physical structure of the butterfly's wings has been well documented, the process by which they arrive at their coloring has never been discovered—this is because it happens over the course of several days inside of their cocoons, where tiny cameras would not really work. In this new effort, the researchers report taking another step in the discovery process.

Prior research has shown that butterfly wings are covered in scales with chitin crystals called gyroids on their surfaces—the gyroids reflect light in certain ways, creating the perception of colors. But how the gyroids develop to display colors is still unclear. In this new effort, the researchers took the closest ever look at the scales and gyroids using several imaging techniques, and report finding something new.

Images taken using scanning electron microscopy, high magnification light microscopy and x-ray nanotomography revealed gyroids with a definite size gradient—and which were not interconnected. From the perspective of moving along a scale from one end to the other, the gyroids on the surface grow larger, which suggested a dynamic growth process. This finding casts doubt on prior theories suggesting that the gyroids were generated from what has been described as a "pre-folded template."

Read more at: https://phys.org/news/2017-04-ultra-high-resolution-images-butterfly-wing.html#jCp