Self-Healing, Robust, and Stretchable Electrode by Direct Printing on Dynamic Polyurea Surface at Slightly Elevated Temperature

Liu, SQ (Liu, Shuqi)^{[ 1 ]} ; Chen, S (Chen, Song)^{[ 1 ]} ; Shi, W (Shi, Wei)^{[ 1 ]} ; Peng, ZF (Peng, Zefei)^{[ 1 ]} ; Luo, KY (Luo, Kaiying)^{[ 1 ]} ; Xing, ST (Xing, Shuting)^{[ 1 ]} ; Li, JT (Li, Jiatian)^{[ 2 ]} ; Liu, ZF (Liu, Zunfeng)^{[ 2 ]} ; Liu, L (Liu, Lan)^{[ 1 ]}

ADVANCED FUNCTIONAL MATERIALS, 2021, 文献号: 2102225

DOI: 10.1002/adfm.202102225

摘要

Printed electronics on elastomer substrates have found wide applications in wearable devices and soft robotics. For everyday usage, additional requirements exist for the robustness of the printed flexible electrodes, such as the ability to resist scratching and damage. Therefore, highly robust electrodes with self-healing, and good mechanical strength and stretchability are highly required and challenging. In this paper, a cross-linking polyurea using polydimethylsiloxane as the soft segment and dynamic urea bonds is prepared and serves as a self-healing elastomer substrate for coating and printing of silver nanowires (AgNWs). Due to the dynamic exchangeable urea bond at 60 degrees C, the elastomer exhibits dynamic exchange of the cross-linking network while retaining the macroscopic shape. As a result, the AgNWs are partially embedded in the surface of the elastomer substrate when coated or printed at 60 degrees C, forming strong interfacial adhesion. As a result, the obtained stretchable electrode exhibits high mechanical strength and stretchability, the ability to resist scratching and sonication, and self-healing. This strategy can be applied to a variety of different conducting electrode materials including AgNWs, silver particles, and liquid metal, which provides a new way to prepare robust and self-healing printed electronics.