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Light-powered soft steam engines for self-adaptive oscillation and biomimetic swimming

Zhiwei Li, Nosang V. Myung, Yadong Yin

Year
2021
Citations
209

Abstract

/Cu hybrid nanorods, which can convert light into heat and generate steam bubbles. Controllable perturbation to the thermomechanical equilibrium of the oscillator can thus be achieved, leading to either continuous or pulsed oscillation depending on the light intensity. Resembling the conventional heat steam engine, this environment-dictated multimodal oscillator uses steam as the working fluid, enabling the design of self-adaptive soft robots that can actively adjust their body functions and working modes in response to environmental changes. An untethered biomimetic neuston-like robot is further developed based on this soft steam engine, which can adapt its locomotion mechanics between uniform and recurrent swimming to light intensity changes and perform on-demand turning under continuous light irradiation. Fueled by water and remotely powered by light, this unique hydrogel oscillator enables easy control over the oscillation dynamics and modes, offering an effective approach to self-adaptive soft robots and solar steam engines.

Keywords

Oscillation (cell signaling)RobotSoft roboticsControl theory (sociology)Photothermal effectHarmonic oscillatorMechanical engineeringComputer scienceEngineeringControl engineering

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