A Highly Efficient Self-Healing Elastomer with Unprecedented Mechanical Properties

Overview

Journal Adv Mater

Date 2019 Apr 13

PMID 30977571

Citations 50

Authors

Luzhi Zhang

Zenghe Liu

Xueli Wu

Qingbao Guan

Shuo Chen

Lijie Sun

Yifan Guo

Shuliang Wang

Jianchun Song

Eric Meade Jeffries

Chuanglong He

Feng-Ling Qing

Xiaoguang Bao

Zhengwei You

Affiliations

Soon will be listed here.

Abstract

It is highly desirable, although very challenging, to develop self-healable materials exhibiting both high efficiency in self-healing and excellent mechanical properties at ambient conditions. Herein, a novel Cu(II)-dimethylglyoxime-urethane-complex-based polyurethane elastomer (Cu-DOU-CPU) with synergetic triple dynamic bonds is developed. Cu-DOU-CPU demonstrates the highest reported mechanical performance for self-healing elastomers at room temperature, with a tensile strength and toughness up to 14.8 MPa and 87.0 MJ m , respectively. Meanwhile, the Cu-DOU-CPU spontaneously self-heals at room temperature with an instant recovered tensile strength of 1.84 MPa and a continuously increased strength up to 13.8 MPa, surpassing the original strength of all other counterparts. Density functional theory calculations reveal that the coordination of Cu(II) plays a critical role in accelerating the reversible dissociation of dimethylglyoxime-urethane, which is important to the excellent performance of the self-healing elastomer. Application of this technology is demonstrated by a self-healable and stretchable circuit constructed from Cu-DOU-CPU.

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