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Ionic covalent organic framework based electrolyte for fast-response ultra-low voltage electrochemical actuators.


ABSTRACT: Electrically activated soft actuators with large deformability are important for soft robotics but enhancing durability and efficiency of electrochemical actuators is challenging. Herein, we demonstrate that the actuation performance of an ionic two-dimensional covalent-organic framework based electrochemical actuator is improved through the ordered pore structure of opening up efficient ion transport routes. Specifically, the actuator shows a large peak to peak displacement (9.3 mm, ±0.5 V, 1 Hz), a fast-response time to reach equilibrium-bending (~1 s), a correspondingly high bending strain difference (0.38%), a broad response frequency (0.1-20 Hz) and excellent durability (>99%) after 23,000 cycles. The present study ascertains the functionality of soft electrolyte as bionic artificial actuators while providing ideas for expanding the limits in applications for robots.

SUBMITTER: Yu F 

PROVIDER: S-EPMC8770580 | biostudies-literature | 2022 Jan

REPOSITORIES: biostudies-literature

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Ionic covalent organic framework based electrolyte for fast-response ultra-low voltage electrochemical actuators.

Yu Fei F   Ciou Jing-Hao JH   Chen Shaohua S   Poh Wei Church WC   Chen Jian J   Chen Juntong J   Haruethai Kongcharoen K   Lv Jian J   Gao Dace D   Lee Pooi See PS  

Nature communications 20220119 1


Electrically activated soft actuators with large deformability are important for soft robotics but enhancing durability and efficiency of electrochemical actuators is challenging. Herein, we demonstrate that the actuation performance of an ionic two-dimensional covalent-organic framework based electrochemical actuator is improved through the ordered pore structure of opening up efficient ion transport routes. Specifically, the actuator shows a large peak to peak displacement (9.3 mm, ±0.5 V, 1 H  ...[more]

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