2021
DOI: 10.1002/adma.202100170
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Small‐Scale Magnetic Actuators with Optimal Six Degrees‐of‐Freedom

Abstract: Magnetic miniature robots (MMRs) are small‐scale, untethered actuators which can be controlled by magnetic fields. As these actuators can non‐invasively access highly confined and enclosed spaces; they have great potential to revolutionize numerous applications in robotics, materials science, and biomedicine. While the creation of MMRs with six‐degrees‐of‐freedom (six‐DOF) represents a major advancement for this class of actuators, these robots are not widely adopted due to two critical limitations: i) under p… Show more

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Cited by 41 publications
(41 citation statements)
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“…Based on our local reference frame assignment, the MMR's rotation about the zfalse{ L false}‐axis is therefore its sixth‐DOF motion. [ 43,54 ] This frame assignment also indicates that the MMR's truem will be along the negative zfalse{ normalL false}‐axis when the actuator deforms to its inverted “V”‐shaped configuration. To fully describe the orientation of the proposed MMR, we also introduce an intermediate reference frame and a global reference frame (Figure 1C(i)‐(ii)), and the axes and vectors expressed in these frames are denoted by the subscripts { I } and { G }, respectively.…”
Section: Actuation Principlesmentioning
confidence: 99%
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“…Based on our local reference frame assignment, the MMR's rotation about the zfalse{ L false}‐axis is therefore its sixth‐DOF motion. [ 43,54 ] This frame assignment also indicates that the MMR's truem will be along the negative zfalse{ normalL false}‐axis when the actuator deforms to its inverted “V”‐shaped configuration. To fully describe the orientation of the proposed MMR, we also introduce an intermediate reference frame and a global reference frame (Figure 1C(i)‐(ii)), and the axes and vectors expressed in these frames are denoted by the subscripts { I } and { G }, respectively.…”
Section: Actuation Principlesmentioning
confidence: 99%
“…This reference frame represents the local reference frame of the actuator, and the axes and vectors expressed in this frame are denoted by a subscript { L }. Because it will be easier to analyze the proposed MMR if its sixth‐DOF axis is parallel to one of the principal axes in the local reference frame, [ 43,54 ] here we assign zfalse{ L false}‐axis to be aligned with the MMR's truem in its “U”‐shaped configuration (Figure 1C(iii)). Based on our local reference frame assignment, the MMR's rotation about the zfalse{ L false}‐axis is therefore its sixth‐DOF motion.…”
Section: Actuation Principlesmentioning
confidence: 99%
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