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Tailoring Crosslinks through Time─A Paradigm for Tough Hydrogels

Hana Tabit, Aiden Saul, Kennalee Orme, Timea Kolozsvary, Zachary A. Bernheimer, Hongyi Cai, Manto Lam, Wenjie Li, Rebecca A. Tobias, Manh Khang Trang, Ryan Doherty, Meredith N. Silberstein, Benjamin R. McDonald

2026Chemical Reviews7 citationsDOI

Abstract

, spatial structure-function relationships, with particular regard to strength and toughness. While this approach has driven fundamental advancements in the design of robust hydrogel structures, further complementary perspectives are needed to enable holistic, rational design schemes that integrate considerations such as fabrication and advanced functions like response and adaptation. To these ends, this review focuses on the dynamics of temporal-function relationships and their fundamental bases in order to highlight how the dynamic regulation of polymer interactions programs: 1) polymer assembly and material structure; 2) response to deformation and fracture behavior; 3) dynamic modulation of properties and structural remodeling/self-healing. By exploring this intersection of hydrogel formation, function, and remodeling, this review seeks to shed light on the fundamental relationship between molecular structure, material assembly, and performance in order to connect the emerging area of bioinspired materials processing with tough hydrogel design, and further provides a lasting inspiration and impetus for future hydrogel development that enables valuable scientific and technological advancements.

Topics & Concepts

Self-healing hydrogelsNanotechnologyRational designDesign elements and principlesChemistrySoft materialsMechanical strengthBiochemical engineeringOrder (exchange)Intersection (aeronautics)BiomimeticsComputer sciencePolymerFunction (biology)Multidisciplinary approachHydrogels: synthesis, properties, applicationsSupramolecular Self-Assembly in MaterialsAdvanced Materials and Mechanics
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