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Processing–Structure–Property–Performance relationships of polymer composites for untethered magnetic robotics

Authors
Won, SukyoungYang, KijunWie, Jeong Jae
Issue Date
Sep-2025
Publisher
Elsevier BV
Keywords
Stimulus-responsive materials; Magnetic polymer composites; Magnetic robots; Magnetic actuation; Polymer processing
Citation
Progress in Polymer Science, v.168, pp 1 - 34
Pages
34
Indexed
SCIE
SCOPUS
Journal Title
Progress in Polymer Science
Volume
168
Start Page
1
End Page
34
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208756
DOI
10.1016/j.progpolymsci.2025.102005
ISSN
0079-6700
1873-1619
Abstract
Miniaturized magnetic robots can be wirelessly maneuvered into hard-to-reach regions beyond the limits of manual control, enabling diverse functionalities such as drug delivery, microfluidic control, cargo transportation, ultraprecision polishing, and microplastic removal. From the perspective of mechanical engineering, robot locomotion has been extensively discussed in previous reviews. However, targeted and high-precision actuation requires multidisciplinary understanding from the perspective of polymer and materials science, which remains insufficiently covered in earlier reviews. This review aims to elucidate processing–structure–property–performance relationships in recent magnetically responsive polymer composites (i.e., magnetic polymer composites) for magnetic robot actuation. We address processing strategies and underlying rationales for magnetic polymer composites by considering magnetic properties of magnetic fillers and thermal processability of polymer matrices. Locomotion of millimeter-to-nanometer scale robots is discussed based on comprehensive understanding of processing, structure, properties, and actuation of magnetic polymer composites. This review offers insights required to advance magnetic robotics, paving the way for future miniaturized actuators and robots with diverse biomedical, environmental, industrial, and interdisciplinary functions.
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