Litcius/Paper detail

Multicolor recordable and erasable photonic crystals based on on-off thermoswitchable mechanochromism toward inkless rewritable paper

Yang Hu, Chenze Qi, Dekun Ma, Dongpeng Yang, Shaoming Huang

2024Nature Communications125 citationsDOIOpen Access PDF

Abstract

Mechanochromic photonic crystals are attractive due to their force-dependent structural colors; however, showing unrecordable color and unsatisfied performances, which significantly limits their development and expansion toward advanced applications. Here, a thermal-responsive mechanochromic photonic crystal with a multicolor recordability-erasability was fabricated by combining non-close-packing mechanochromic photonic crystals and phase-change materials. Multicolor recordability is realized by pressing thermal-responsive mechanochromic photonic crystals to obtain target colors over the phase-change temperature followed by fixing the target colors and deformed configuration at room temperature. The stable recorded color can be erased and reconfigured by simply heating and similar color-recording procedures respectively due to the thermoswitchable on-off mechanochromism of thermal-responsive mechanochromic photonic crystals along with solid-gel phase transition. These thermal-responsive mechanochromic photonic crystals are ideal rewritable papers for ink-freely achieving multicolor patterns with high resolution, difficult for conventional photonic papers. This work offers a perspective for designing color-recordable/erasable and other stimulus-switchable materials with advanced applications.

Topics & Concepts

Materials sciencePhotonic crystalPhotonicsStructural colorationOptoelectronicsNanotechnologyThermalOpticsPhysicsMeteorologyPhotonic Crystals and ApplicationsPhotochromic and Fluorescence ChemistryLiquid Crystal Research Advancements