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Bright, noniridescent structural coloration from clay mineral nanosheet suspensions

Paulo Henrique Michels-Brito, Volodymyr Dudko, Daniel Wagner de Castro Lima Santos, Paul Markus, Georg Papastavrou, Leander Michels, Josef Breu, Jon Otto Fossum

2022Science Advances34 citationsDOIOpen Access PDF

Abstract

Structural colors originate by constructive interference following reflection and scattering of light from nanostructures with periodicity comparable to visible light wavelengths. Bright and noniridescent structural colorations are highly desirable. Here, we demonstrate that bright noniridescence structural coloration can be easily and rapidly achieved from suspended two-dimensional nanosheets of a clay mineral. We show that brightness is enormously improved by using double clay nanosheets, thus optimizing the clay refractive index that otherwise hampers structural coloration from such systems. Intralayer distances, and thus the structural colors, can be precisely and reproducibly controlled by clay concentration and ionic strength independently, and noniridescence is readily and effortlessly obtained in this system. Embedding such clay-designed nanosheets in recyclable solid matrices could provide tunable vivid coloration and mechanical strength and stability at the same time, thus opening a previously unknown venue for sustainable structural coloration.

Topics & Concepts

Structural colorationClay mineralsMaterials scienceBrightnessWavelengthNanosheetReflection (computer programming)Light scatteringStructural stabilityMineralogyScatteringOpticsNanotechnologyChemistryOptoelectronicsPhysicsPhotonic crystalComputer scienceProgramming languageStructural engineeringEngineeringPhotonic Crystals and ApplicationsPickering emulsions and particle stabilization
Bright, noniridescent structural coloration from clay mineral nanosheet suspensions | Litcius