Litcius/Paper detail

Rapid Responsive Mechanochromic Photonic Pigments with Alternating Glassy-Rubbery Concentric Lamellar Nanostructures

Yun Dong, Zhe Ma, Dong‐Po Song, Guiqiu Ma, Yue‐Sheng Li

2021ACS Nano58 citationsDOI

Abstract

., they can easily be damaged and lose structural color under a compression force. This greatly limits their uses as mechanochromic pigments. Here, a nanoscale concentric lamellar structure of alternating glassy-rubbery microdomains is successfully created within photonic microparticles through a confined self-assembly and photo-cross-linking strategy. The glassy domain is composed of polystyrene, and cross-linked bottlebrush polydimethylsiloxane served as the supersoft elastic domain. The obtained photonic structure not only shows large deformation and visible color changes under a loaded compression force but also rapidly recovers to its original state in less than 1 s (∼0.16 s) upon unloading. Continuously loading-unloading micro compression test indicates that no obvious damage can be identified after 250 cycles, indicating the high durability of the pigments against deformation. These pigments with different reflected colors are simply obtained using bottlebrush block copolymer formulations with tunable weight percentages of polymer additives. The mechanical robust photonic pigments may be useful in many important applications.

Topics & Concepts

Materials scienceStructural colorationLamellar structurePolydimethylsiloxanePolymerNanostructurePhotonicsComposite materialDeformation (meteorology)PolystyreneCopolymerNanoscopic scaleIridescenceNanotechnologyPhotonic crystalOptoelectronicsOpticsPhysicsPhotonic Crystals and ApplicationsNonlinear Optical Materials StudiesPickering emulsions and particle stabilization
Rapid Responsive Mechanochromic Photonic Pigments with Alternating Glassy-Rubbery Concentric Lamellar Nanostructures | Litcius