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Animating hydrogel knotbots with topology-invoked self-regulation

Qing Zhu, Weixuan Liu, Olena Khoruzhenko, Josef Breu, Wei Hong, Qiang Zheng, Zi Liang Wu

2024Nature Communications89 citationsDOIOpen Access PDF

Abstract

Steering soft robots in a self-regulated manner remains a grand challenge, which often requires continuous symmetry breaking and recovery steps for persistent motion. Although structural morphology is found significant for robotic functions, geometric topology has rarely been considered and appreciated. Here we demonstrate a series of knotbots, namely hydrogel-based robots with knotted structures, capable of autonomous rolling and spinning/rotating motions. With symmetry broken by external stimuli and restored by self-regulation, the coupling between self-constraint-induced prestress and photothermal strain animates the knotbots continuously. Experiments and simulations reveal that nonequilibrium processes are regulated dynamically and cooperatively by self-constraints, active deformations, and self-shadowing effect of the photo-responsive gel. The active motions enable the knotbots to execute tasks including gear rotation and rod climbing. This work paves the way to devise advanced soft robots with self-regulated sustainable motions by harnessing the topology.

Topics & Concepts

Topology (electrical circuits)RobotComputer scienceCoupling (piping)Rotation (mathematics)SpinningSymmetry (geometry)Work (physics)PhysicsNanotechnologyClassical mechanicsBiological systemArtificial intelligenceMaterials scienceEngineeringMechanical engineeringGeometryMathematicsBiologyThermodynamicsElectrical engineeringAdvanced Materials and MechanicsMicro and Nano RoboticsSoft Robotics and Applications
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