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Magnetically Actuated Fiber‐Based Soft Robots

Youngbin Lee, Florian Koehler, Tom Dillon, Gabriel Loke, Yoonho Kim, Juliette Marion, Marc‐Joseph Antonini, Indie C. Garwood, Atharva Sahasrabudhe, Keisuke Nagao, Xuanhe Zhao, Yoel Fink, Ellen T. Roche, Polina Anikeeva

2023Advanced Materials113 citationsDOIOpen Access PDF

Abstract

Broad adoption of magnetic soft robotics is hampered by the sophisticated field paradigms for their manipulation and the complexities in controlling multiple devices. Furthermore, high-throughput fabrication of such devices across spatial scales remains challenging. Here, advances in fiber-based actuators and magnetic elastomer composites are leveraged to create 3D magnetic soft robots controlled by unidirectional fields. Thermally drawn elastomeric fibers are instrumented with a magnetic composite synthesized to withstand strains exceeding 600%. A combination of strain and magnetization engineering in these fibers enables programming of 3D robots capable of crawling or walking in magnetic fields orthogonal to the plane of motion. Magnetic robots act as cargo carriers, and multiple robots can be controlled simultaneously and in opposing directions using a single stationary electromagnet. The scalable approach to fabrication and control of magnetic soft robots invites their future applications in constrained environments where complex fields cannot be readily deployed.

Topics & Concepts

RobotMaterials scienceSoft roboticsElastomerMagnetic fieldRoboticsElectromagnetFabricationNanotechnologyMagnetActuatorScalabilityComputer scienceGrapheneMechanical engineeringArtificial intelligenceComposite materialEngineeringPhysicsAlternative medicineDatabaseQuantum mechanicsPathologyMedicineMicro and Nano RoboticsAdvanced Materials and MechanicsSoft Robotics and Applications
Magnetically Actuated Fiber‐Based Soft Robots | Litcius