1. Hygrobot: A self-locomotive ratcheted actuator powered by environmental humidity
- Author
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Beomjune Shin, Ho-Young Kim, Kyu-Jin Cho, Keunhwan Park, Minhee Lee, Tae Hyun Choi, Gee Ho Park, and Jonghyun Ha
- Subjects
Optimal design ,Control and Optimization ,Bending (metalworking) ,Computer science ,Mechanical Engineering ,Mechanical engineering ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Swell ,0104 chemical sciences ,Computer Science Applications ,Power (physics) ,Artificial Intelligence ,Robot ,0210 nano-technology ,Actuator ,Energy (signal processing) ,Directional locomotion - Abstract
Microrobots that are light and agile yet require no artificial power input can be widely used in medical, military, and industrial applications. As an actuation system to drive such robots, here we report a biologically inspired bilayer structure that harnesses the environmental humidity energy, with ratchets to rectify the motion. We named this actuator-ratchet system the hygrobot. The actuator uses a hygroscopically responsive film consisting of aligned nanofibers produced by directional electrospinning, which quickly swells and shrinks in lengthwise direction in response to the change of humidity. The ratchets based on asymmetric friction coefficients rectify oscillatory bending motion in a directional locomotion. We mathematically analyzed the mechanical response of the hygrobot, which allowed not only prediction of its performance but also the optimal design to maximize the locomotion speed given geometric and environmental constraints. The hygrobot sterilized a trail across an agar plate without any artificial energy supply.
- Published
- 2018
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