材料科学
弹性体
离子键合
放松(心理学)
分子间力
聚合物
离子液体
分子动力学
纳米技术
化学物理
自愈
复合材料
超分子化学
超分子聚合物
网络结构
仿生材料
延伸率
应力松弛
作者
Y Peng,Yujia Hou,Shiyu Gu,Jin Jia,H Wang,Qi Wu,Jinrong Wu
标识
DOI:10.1021/acsami.6c03781
摘要
Supramolecular polymers often exhibit self-healing capabilities following mechanical damage. However, the detailed recovery processes and underlying driving forces remain poorly understood. In this study, we developed a room-temperature self-healing elastomer by introducing intermolecular ionic interactions between untangled polymer chains. These interactions enable the material to fully repair macroscopic mechanical damage (e.g., cuts) within 5 h at room temperature without compromising its mechanical properties. We quantitatively characterize the multiscale healing processes, ranging from ionic bond reformation and weak physical network repair to strong physical network recovery and mechanical property restoration. These healing processes are systematically correlated with the multiscale molecular motions and relaxation dynamics of ionic aggregates. Our findings reveal that ionic bond recovery occurs synergistically with segmental motion, facilitating the repair of a weak physical network and driving shape recovery after deformation. Meanwhile, the restoration of the strong network is governed by the complete relaxation of the ionic aggregates. For macroscopic damage, full healing requires an additional contribution of terminal flow.
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