Litcius/Paper detail

The limitations of extending nature’s color palette in correlated, disordered systems

Gianni Jacucci, Silvia Vignolini, Lukas Schertel

2020Proceedings of the National Academy of Sciences90 citationsDOIOpen Access PDF

Abstract

Living organisms have developed a wide range of appearances from iridescent to matte textures. Interestingly, angular-independent structural colors, where isotropy in the scattering structure is present, only produce coloration in the blue wavelength region of the visible spectrum. One might, therefore, wonder if such observation is a limitation of the architecture of the palette of materials available in nature. Here, by exploiting numerical modeling, we discuss the origin of isotropic structural colors without restriction to a specific light scattering regime. We show that high color purity and color saturation cannot be reached in isotropic short-range order structures for red hues. This conclusion holds even in the case of advanced scatterer morphologies, such as core-shell particles or inverse photonic glasses-explaining recent experimental findings reporting very poor performances of visual appearance for such systems.

Topics & Concepts

Structural colorationHuePalette (painting)IsotropyIridescenceWavelengthOpticsLight scatteringScatteringVisible spectrumPhysicsMaterials sciencePhotonic crystalComputer scienceOperating systemPhotonic Crystals and ApplicationsPlant and animal studiesRandom lasers and scattering media
The limitations of extending nature’s color palette in correlated, disordered systems | Litcius