Lauren R. Richey scite author profile

We investigated the photonic crystal structure inside iridescent scales of the weevil Lamprocyphus augustus. By combining a high-resolution structure analysis technique based on sequential focused ion beam milling and scanning electron microscopy imaging with theoretical modeling and photonic band-structure calculations, we discovered a natural three-dimensional photonic structure with a diamond-based crystal lattice operating at visible wavelengths. Moreover, we found that within individual scales, the diamond-based structure is assembled in the form of differently oriented single-crystalline micrometer-sized pixels with only selected lattice planes facing the scales' top surface. A comparison of results obtained from optical microreflectance measurements with photonic band-structure calculations reveals that it is this sophisticated microassembly of the diamond-based crystal lattice that lends Lamprocyphus augustus its macroscopically near angle-independent green coloration.

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Study of natural photonic crystals in beetle scales and their conversion into inorganic structures via a sol–gel bio-templating route

Galusha

et al. 2010

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Revisiting the CuPt3 prototype and the L13 structure

et al. 2014

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Oxide-based photonic crystals from biological templates

Galusha

Jorgensen

Richey

et al. 2009

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Lauren R. Richey

Discovery of a diamond-based photonic crystal structure in beetle scales

Study of natural photonic crystals in beetle scales and their conversion into inorganic structures via a sol–gel bio-templating route

Revisiting the CuPt3 prototype and the L13 structure

Oxide-based photonic crystals from biological templates

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