纳米颗粒
材料科学
韧性
纳米尺度
自愈水凝胶
氢
超分子化学
纳米技术
聚合物
化学工程
链条(单位)
消散
纳米结构
流变学
超分子聚合物
纳米-
氢分子
复合材料
铂纳米粒子
纳米复合材料
单链
作者
Yue Zhao,Steven P Armes,Zesheng An
摘要
ABSTRACT Tuning the mechanical properties of ultrahigh molecular weight (UHMW) physically crosslinked hydrogels remains a significant challenge. We address this by utilizing Fenton‐initiated reversible addition‐fragmentation chain transfer (RAFT) polymerization to synthesize poly(methacrylic acid) (PMAA) with molecular weights of up to 1700 kg mol −1 under mild aqueous conditions. These UHMW polymers leverage extensive chain entanglement and hydrogen bonding to form strong and tough supramolecular hydrogels, exhibiting a tensile strength of up to 0.16 MPa, a fracture strain of 2000%, and a toughness of 2.93 MJ m −3 . Furthermore, the incorporation of PMAA‐stabilized nanoparticles (spheres or worms) as secondary physical crosslinks significantly enhances energy dissipation and overall mechanical properties, resulting in a 2.5‐fold increase in toughness relative to the neat UHMW PMAA hydrogel. This approach offers a versatile framework for designing high‐performance soft materials through hierarchical molecular and nanoscale engineering.
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