2022
DOI: 10.1021/acsami.2c13108
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Aligned Magnetic Nanocomposites for Modularized and Recyclable Soft Microrobots

Abstract: Creating reconfigurable and recyclable soft microrobots that can execute multimodal locomotion has been a challenge due to the difficulties in material processing and structure engineering at a small scale. Here, we propose a facile technique to manufacture diverse soft microrobots (∼100 μm in all dimensions) by mechanically assembling modular magnetic microactuators into different three-dimensional (3D) configurations. The module is composed of a cubic micropillar supported on a square substrate, both made of… Show more

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Cited by 8 publications
(7 citation statements)
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“…The deformation of the micropillar in a uniform magnetic field is driven by magnetic torque. [ 60,66,76,86 ] Upon applying a uniform field before curing, each magnetic nanoparticle dispersed within the liquid matrix suffers a magnetic torque moment [ 87 ] Tmag=boldnormalm×boldnormalB\[\begin{array}{*{20}{c}}{{{{\bf T}}_{mag}} = {{\bf m}} \times {{\bf B}}}\end{array}\] where m is the magnetic dipolar moment of a single particle and B is the magnetic induction intensity of the uniform magnetic field. The particle is rotated by such a torque moment to align the magnetic polarization to the direction of the external magnetic field.…”
Section: Actuation Mechanismsmentioning
confidence: 99%
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“…The deformation of the micropillar in a uniform magnetic field is driven by magnetic torque. [ 60,66,76,86 ] Upon applying a uniform field before curing, each magnetic nanoparticle dispersed within the liquid matrix suffers a magnetic torque moment [ 87 ] Tmag=boldnormalm×boldnormalB\[\begin{array}{*{20}{c}}{{{{\bf T}}_{mag}} = {{\bf m}} \times {{\bf B}}}\end{array}\] where m is the magnetic dipolar moment of a single particle and B is the magnetic induction intensity of the uniform magnetic field. The particle is rotated by such a torque moment to align the magnetic polarization to the direction of the external magnetic field.…”
Section: Actuation Mechanismsmentioning
confidence: 99%
“…In a recent study, a concept of “modular assembly” for miniature soft robots was presented. [ 66 ] A single modular microactuator consisted of a cubic magnetic micropillar supported on a square substrate. Various micro‐robots with different functions could be fabricated by mechanically assembling the modules into different 3D configurations and subsequently the robots could be disassembled back to separate modules for next round of reassembly.…”
Section: Practical Applicationsmentioning
confidence: 99%
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