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Self-Healing and Reconfigurable Actuators Based on Synergistically Cross-Linked Supramolecular Elastomer

Xiaoyan Qiu, Quanquan Guo, Yuyan Wang, Xin Huang, Jie Cao, Zhuo Zheng, Xinxing Zhang

发表年份
2020
引用次数
44

摘要

Stimulus-responsive soft actuators show great potential in intelligent robot systems for their various virtues, such as arbitrary shape morphing, outstanding adaptability to environment, and multidegrees of freedom. However, it is extremely challenging to achieve a combination of excellent actuating performance and robust mechanical strength as well as self-healing property. Herein we report a near-infrared light-responsive soft actuator based on the synergistic effects of a crystalline physical cross-linked network and a hydrogen bonding supramolecular network. The actuator exhibits outstanding comprehensive performance including fast and reliable light-responsive behavior (bending angle over 90° within 1.6 s), robust mechanical strength (12.52 MPa), superfast self-healing speed (2 s), and satisfactory self-healing efficiency in both mechanical (87.68%) and actuating (99.50%) performance. In addition, it is convenient to fabricate and reconfigure the actuators by a mild-temperature molding strategy to acquire various three-dimensional structures, thus achieving diverse actuating locomotion. This work provides a powerful and facile strategy to prepare soft actuators with intriguing performance, allowing significant progress in broadening their practical application.

关键词

Materials scienceSelf-healingActuatorSoft roboticsMorphingElastomerNanotechnologyMechanical engineeringComputer scienceComposite material

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