An Elastic Autonomous Self‐Healing Capacitive Sensor Based on a Dynamic Dual Crosslinked Chemical System

材料科学 自愈 复合材料 电容感应 软机器人 复合数 聚合物 基质(水族馆) 纳米技术 自愈材料 弹性(物理) 计算机科学 人工智能 执行机构 医学 替代医学 病理 地质学 操作系统 海洋学
作者
Qiuhong Zhang,Simiao Niu,Li Wang,Jeffrey Lopez,Shucheng Chen,Yifeng Cai,Ruichun Du,Yuxin Liu,Jian‐Cheng Lai,Ling Liu,Cheng‐Hui Li,Xuzhou Yan,Chungen Liu,Jeffrey B.‐H. Tok,Xudong Jia,Zhenan Bao
出处
期刊:Advanced Materials [Wiley]
卷期号:30 (33): e1801435-e1801435 被引量:391
标识
DOI:10.1002/adma.201801435
摘要

Adopting self-healing, robust, and stretchable materials is a promising method to enable next-generation wearable electronic devices, touch screens, and soft robotics. Both elasticity and self-healing are important qualities for substrate materials as they comprise the majority of device components. However, most autonomous self-healing materials reported to date have poor elastic properties, i.e., they possess only modest mechanical strength and recoverability. Here, a substrate material designed is reported based on a combination of dynamic metal-coordinated bonds (β-diketone-europium interaction) and hydrogen bonds together in a multiphase separated network. Importantly, this material is able to undergo self-healing and exhibits excellent elasticity. The polymer network forms a microphase-separated structure and exhibits a high stress at break (≈1.8 MPa) and high fracture strain (≈900%). Additionally, it is observed that the substrate can achieve up to 98% self-healing efficiency after 48 h at 25 °C, without the need of any external stimuli. A stretchable and self-healable dielectric layer is fabricated with a dual-dynamic bonding polymer system and self-healable conductive layers are created using polymer as a matrix for a silver composite. These materials are employed to prepare capacitive sensors to demonstrate a stretchable and self-healable touch pad.
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