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Nacre-inspired layered composite gels with broad tunable mechanical strength and structural color for stress visualization

Yunpeng Wang, Xinyu Kan, Yaru Liu, Jie Ju, Xi Yao

2023Nanoscale10 citationsDOI

Abstract

-acrylamide) is induced by shear-orientation-assisted self-assembly followed by solvent replacement. The highly tailorable (from ∼780 nm to ∼445 nm) range of colors was achieved by regulating the concentration of α-ZrP and glycerol inside the matrix. With the help from glycerol, the composite gels exhibited long-term stability (7 d) in the arid condition and remarkable low-temperature tolerance (-80 °C). The extraordinary mechanical property (compressive strength up to 119 MPa) of composite gels is achieved by the assembled α-ZrP plates with a small aspect ratio, high negative charge repulsion, and abundant hydrogen bonding sites. As a result, the mechanochromic sensor based on the composite gel enjoys a wide range of stress detection (0-1862 KPa). This study provides a new strategy for constructing high strength structural-colored gels, opening up opportunities for sensitive yet strong mechanochromic sensors in extreme environments.

Topics & Concepts

Materials scienceComposite numberComposite materialToughnessStructural colorationNanocompositeStress (linguistics)OptoelectronicsPhilosophyPhotonic crystalLinguisticsCalcium Carbonate Crystallization and InhibitionCephalopods and Marine BiologyAdvanced Materials and Mechanics
Nacre-inspired layered composite gels with broad tunable mechanical strength and structural color for stress visualization | Litcius