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Multiscale integral synchronous assembly of cuttlebone-inspired structural materials by predesigned hydrogels

Huai‐Bin Yang, Yang Lü, Xin Yue, Zhao‐Xiang Liu, Wen‐Bin Sun, W. Zheng, Qing‐Fang Guan, Shu‐Hong Yu

2025Nature Communications21 citationsDOIOpen Access PDF

Abstract

The overall structural integrity plays a vital role in the unique performance of living organisms, but the integral synchronous preparation of different multiscale architectures remains challenging. Inspired by the cuttlebone’s rigid cavity-wall structure with excellent energy absorption, we develop a robust hierarchical predesigned hydrogel assembly strategy to integrally synchronously assemble multiple organic and inorganic micro-nano building blocks to different structures. The two types of predesigned hydrogels, combined with hydrogen, covalent bonding, and electrostatic interactions, are layer-by-layer assembled into brick-and-mortar structures and close-packed rigid micro hollow structures in a cuttlebone-inspired structural material, respectively. The cuttlebone-inspired structural materials gain crack growth resistance, high strength, and energy absorption characteristics beyond typical energy-absorbing materials with similar densities. This hierarchical hydrogel integral synchronous assembly strategy is promising for the integrated fabrication guidance of bioinspired structural materials with multiple different micro-nano architectures. For bioinspired structural materials, integral preparation of multiscale structures remains challenging. The authors report a hierarchical strategy to assemble multiple micro-nano units to complex multiscale structures integrally synchronously.

Topics & Concepts

Materials scienceSelf-healing hydrogelsNanotechnologyIntegrally closedNano-FabricationBiomimeticsLayer (electronics)Smart materialComposite materialAlternative medicinePathologyPolymer chemistryMedicineCalcium Carbonate Crystallization and InhibitionCephalopods and Marine BiologyBone Tissue Engineering Materials