Highly stretchable rubberlike hydrogel with a homogeneous model

Modeling cellular self-organization in strain-stiffening hydrogels

Yuki Yoshikawa's research works The University of Tokyo, Bunkyō

Typical strategies for designing tough hydrogels. (A) Tetra-PEG

118859 PDFs Review articles in RUBBER

Effect of sizes of vinyl modified narrow-dispersed silica cross-linker on the mechanical properties of acrylamide based hydrogel

Fabrication of highly stretchable hydrogel based on crosslinking between alendronates functionalized poly-γ-glutamate and calcium cations - ScienceDirect

Highly stretchable, self-healing elastomer hydrogel with universal adhesion driven by reversible cross-links and protein enhancement - Journal of Materials Chemistry B (RSC Publishing)

Full article: Constitutive modeling for hydrogel with chain entanglements and application to adaptive hydrogel composite structures

Mechanically robust, notch-insensitive, fatigue resistant and self-recoverable hydrogels with homogeneous and viscoelastic network constructed by a novel multifunctional cross-linker - ScienceDirect