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In situ mechanical reinforcement of polymer hydrogels via metal-coordinated crosslink mineralization
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© 2021, The Author(s). Biological organic-inorganic materials remain a popular source of inspiration for bioinspired materials design and engineering. Inspired by the self-assembling metal-reinforced mussel holdfast threads, we tested if metal-coordinate polymer networks can be utilized as simple composite scaffolds for direct in situ crosslink mineralization. Starting with aqueous solutions of polymers end-functionalized with metal-coordinating ligands of catechol or histidine, here we show that inter-molecular metal-ion coordination complexes can serve as mineral nucleation sites, whereby significant mechanical reinforcement is achieved upon nanoscale particle growth directly at the metal-coordinate network crosslink sites.
Date issued
2021Journal
Nature Communications
Publisher
Springer Science and Business Media LLC
Citation
Kim, Sungjin, Regitsky, Abigail U, Song, Jake, Ilavsky, Jan, McKinley, Gareth H et al. 2021. "In situ mechanical reinforcement of polymer hydrogels via metal-coordinated crosslink mineralization." Nature Communications, 12 (1).
Version: Final published version