Tarantulas inspire new structural color with the greatest viewing angle
The University of Akron
"Structural colors are more vibrant and durable than the pigments used in most human-made products," explained Hsiung, the lead author of this research and a Biomimicry Fellow in the Integrated Bioscience Ph.D. program at The University of Akron. "They are produced by optical effects when light interacts with nanostructures that are about the same size as the wavelength of light." Think of a peacock, or a butterfly. The problem is that most structural colors are strongly iridescent, changing color when viewed from different angles. It's beautiful out in nature, but not very functional when we're watching television and we move to a new seat."
The team first discovered that many vibrant blue tarantulas do not show iridescence even though the spiders use nanostructures to produce those colors. Since the spider's blue color is not iridescent, Hsiung's team suggested that the same process could be applied to make pigment replacements that never fade, as well as to help reduce glare on wide-angle viewing systems in phones, televisions and other devices.
As they dug deeper, they found that the hairs of some species of blue tarantulas show a special flower-like shape that they hypothesized reduced the iridescent effect resulting from periodic structures. Then, thanks to the crowdfunding push they received earlier, they were able to test this hypothesis using a series of computer simulations and physical prototypes built using cutting-edge nano-3D printing technology.
Their color produced by the 3D printed structures has a viewing angle of 160 degrees, the largest viewing angle of any synthetic structural colors demonstrated.
"These structural colorants could be used as pigment replacements - many of which are toxic - in materials such as plastics, metal, textiles and paper, and for producing color for wide-angle viewing systems such as phones and televisions," Hsiung said.
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Bor‐Kai Hsiung , Radwanul Hasan Siddique , Lijia Jiang , Ying Liu , Yongfeng Lu , Matthew D. Shawkey , Todd A. Blackledge; "Structural Colors: Tarantula‐Inspired Noniridescent Photonics with Long‐Range Order"; Advanced Optical Materials; 2017
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