Living photonic crystals: Butterfly scales ­ Nanostructure and optical properties

László Péter Bíró; Krisztián Kértész; Zófia Vértesy; Géza Márk; Zsolt Balint; Virginie Lousse; Jean-Pol Vigneron

doi:10.1016/j.msec.2006.09.043

Living photonic crystals: Butterfly scales Nanostructure and optical properties

László Péter Bíró, Krisztián Kértész, Zófia Vértesy, Géza Márk, Zsolt Balint, Virginie Lousse, Jean-Pol Vigneron

Namur Research Institute for Life Sciences

Research output: Contribution to journal › Article

Abstract

The photonic crystal type nanostructures in the scales of male individuals of two butterfly species: Cyanophrys remus and Albulina metallica were investigated by electron microscopy and reflectance measurements. While the colors of C. remus arise from structures with rigorous long range (dorsal) or short range (ventral) three dimensional (3D) order, the colors of A. metallica are produced by quasi-ordered, layered structures. Surprisingly, the most efficient photonic band gap reflector is the quasi-ordered structure giving the shiny, yellowish green color of the ventral hind wings of A. metallica. All four investigated structures are based on a moderate refractive index contrast between chitin (n = 1.58) and air, the various structures achieve a wide range of biological functions.

Original language	English
Pages (from-to)	941-946
Number of pages	6
Journal	Materials science and engineering. C, Biomimetic materials, sensors and systems
Volume	27
Issue number	5-8
DOIs	https://doi.org/10.1016/j.msec.2006.09.043
Publication status	Published - 2007

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10.1016/j.msec.2006.09.043

Cite this

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title = "Living photonic crystals: Butterfly scales Nanostructure and optical properties",

abstract = "The photonic crystal type nanostructures in the scales of male individuals of two butterfly species: Cyanophrys remus and Albulina metallica were investigated by electron microscopy and reflectance measurements. While the colors of C. remus arise from structures with rigorous long range (dorsal) or short range (ventral) three dimensional (3D) order, the colors of A. metallica are produced by quasi-ordered, layered structures. Surprisingly, the most efficient photonic band gap reflector is the quasi-ordered structure giving the shiny, yellowish green color of the ventral hind wings of A. metallica. All four investigated structures are based on a moderate refractive index contrast between chitin (n = 1.58) and air, the various structures achieve a wide range of biological functions.",

author = "B{\'i}r{\'o}, {L{\'a}szl{\'o} P{\'e}ter} and Kriszti{\'a}n K{\'e}rt{\'e}sz and Z{\'o}fia V{\'e}rtesy and G{\'e}za M{\'a}rk and Zsolt Balint and Virginie Lousse and Jean-Pol Vigneron",

year = "2007",

doi = "10.1016/j.msec.2006.09.043",

language = "English",

volume = "27",

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journal = "Materials science and engineering. C, Biomimetic materials, sensors and systems",

issn = "0928-4931",

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TY - JOUR

T1 - Living photonic crystals

T2 - Butterfly scales Nanostructure and optical properties

AU - Bíró, László Péter

AU - Kértész, Krisztián

AU - Vértesy, Zófia

AU - Márk, Géza

AU - Balint, Zsolt

AU - Lousse, Virginie

AU - Vigneron, Jean-Pol

PY - 2007

Y1 - 2007

N2 - The photonic crystal type nanostructures in the scales of male individuals of two butterfly species: Cyanophrys remus and Albulina metallica were investigated by electron microscopy and reflectance measurements. While the colors of C. remus arise from structures with rigorous long range (dorsal) or short range (ventral) three dimensional (3D) order, the colors of A. metallica are produced by quasi-ordered, layered structures. Surprisingly, the most efficient photonic band gap reflector is the quasi-ordered structure giving the shiny, yellowish green color of the ventral hind wings of A. metallica. All four investigated structures are based on a moderate refractive index contrast between chitin (n = 1.58) and air, the various structures achieve a wide range of biological functions.

AB - The photonic crystal type nanostructures in the scales of male individuals of two butterfly species: Cyanophrys remus and Albulina metallica were investigated by electron microscopy and reflectance measurements. While the colors of C. remus arise from structures with rigorous long range (dorsal) or short range (ventral) three dimensional (3D) order, the colors of A. metallica are produced by quasi-ordered, layered structures. Surprisingly, the most efficient photonic band gap reflector is the quasi-ordered structure giving the shiny, yellowish green color of the ventral hind wings of A. metallica. All four investigated structures are based on a moderate refractive index contrast between chitin (n = 1.58) and air, the various structures achieve a wide range of biological functions.

U2 - 10.1016/j.msec.2006.09.043

DO - 10.1016/j.msec.2006.09.043

M3 - Article

SN - 0928-4931

VL - 27

SP - 941

EP - 946

JO - Materials science and engineering. C, Biomimetic materials, sensors and systems

JF - Materials science and engineering. C, Biomimetic materials, sensors and systems

IS - 5-8

ER -

Living photonic crystals: Butterfly scales ­ Nanostructure and optical properties

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Living photonic crystals: Butterfly scales Nanostructure and optical properties