Structural colours in living organisms have been observed and analysed in a large number of species, however the study of how the micro- A nd nano-scopic natural structures responsible of such colourations develop has been largely ignored. Understanding the interplay between chemical composition, structural morphology on multiple length scales, and mechanical constraints requires a range of investigation tools able to capture the different aspects of natural hierarchical architectures. Here, we report a developmental study of the most widespread strategy for structural colouration in nature: The cuticular multilayer. In particular, we focus on the exoskeletal growth of the dock leaf beetle Gastrophysa viridula, capturing all aspects of its ...
Coloration in insects provides a fruitful opportunity for interdisciplinary research involving both ...
The cuticle of a Mycterophallus cetoniine scarab species displays both red iridescence due to a mult...
Photonic crystals are optically active materials that can inhibit the propagation of light within ce...
Structural colours in living organisms have been observed and analysed in a large number of species,...
The mechanisms and evolution of metallic structural colours are of both fundamental and applied inte...
The mechanisms and evolution of metallic structural colours are of both fundamental and applied inte...
The iridescent metallic green beetle, Chrysina gloriosa, which selectively reflects left circularly ...
Insect colour is extremely diverse and produced by a large number of pigmentary and nanostructural m...
Living organisms can process natural building blocks into hierarchical architectures under mild envi...
Evolution in nature has produced through adaptation a wide variety of distinctive optical structures...
The coloration of butterflies and moths, Lepidoptera, has been an important force in biological inqu...
Butterfly wing color patterns are produced by the placement of monochromatic scales that have specif...
Biological systems have a remarkable capability of synthesizing multifunctional materials that are a...
Light control through layered photonic nanostructures enables the strikingly colored displays of ma...
Light control through layered photonic nanostructures enables the strikingly colored displays of man...
Coloration in insects provides a fruitful opportunity for interdisciplinary research involving both ...
The cuticle of a Mycterophallus cetoniine scarab species displays both red iridescence due to a mult...
Photonic crystals are optically active materials that can inhibit the propagation of light within ce...
Structural colours in living organisms have been observed and analysed in a large number of species,...
The mechanisms and evolution of metallic structural colours are of both fundamental and applied inte...
The mechanisms and evolution of metallic structural colours are of both fundamental and applied inte...
The iridescent metallic green beetle, Chrysina gloriosa, which selectively reflects left circularly ...
Insect colour is extremely diverse and produced by a large number of pigmentary and nanostructural m...
Living organisms can process natural building blocks into hierarchical architectures under mild envi...
Evolution in nature has produced through adaptation a wide variety of distinctive optical structures...
The coloration of butterflies and moths, Lepidoptera, has been an important force in biological inqu...
Butterfly wing color patterns are produced by the placement of monochromatic scales that have specif...
Biological systems have a remarkable capability of synthesizing multifunctional materials that are a...
Light control through layered photonic nanostructures enables the strikingly colored displays of ma...
Light control through layered photonic nanostructures enables the strikingly colored displays of man...
Coloration in insects provides a fruitful opportunity for interdisciplinary research involving both ...
The cuticle of a Mycterophallus cetoniine scarab species displays both red iridescence due to a mult...
Photonic crystals are optically active materials that can inhibit the propagation of light within ce...