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Optomagnetic Coordination Helical Robot with Shape Transformation and Multimodal Motion Capabilities

Zhuangzhuang Tian, Jingze Xue, Xinze Xiao, Chuankai Du, Yan Liu

2024Nano Letters11 citationsDOI

Abstract

Soft robots with magnetic responsiveness exhibit diverse motion modes and programmable shape transformations. While the fixed magnetization configuration facilitates coupling control of robot posture and motion, it limits individual posture control to some extent. This poses a challenge in independently controlling the robot's transformation and motion, restricting its versatile applications. This research introduces a multifunctional helical robot responsive to both light and magnetism, segregating posture control from movements. Light fields assist in robot shaping, achieving a 78% maximum diameter shift. Magnetic fields guide helical robots in multimodal motions, encompassing rotation, flipping, rolling, and spinning-induced propulsion. By controlling multimodal locomotion and shape transformation on demand, helical robots gain enhanced flexibility. This innovation allows them to tightly grip and wirelessly transport designated payloads, showcasing potential applications in drug delivery, soft grippers, and chemical reaction platforms. The unique combination of structural design and control methods holds promise for intelligent robots in the future.

Topics & Concepts

RobotFlexibility (engineering)Motion controlGrippersMagnetismPropulsionComputer scienceTransformation (genetics)Artificial intelligenceControl engineeringEngineeringPhysicsMechanical engineeringAerospace engineeringChemistryBiochemistryStatisticsQuantum mechanicsGeneMathematicsMicro and Nano RoboticsAdvanced Materials and MechanicsSoft Robotics and Applications
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