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Biomimetic Artificial Muscles Inspired by Nature's Volume-Change Actuation Mechanismsopen access

Authors
Kim, HyunsooKim, MinwooNoh, YonghunJang, Yongwoo
Issue Date
Dec-2025
Publisher
MDPI AG
Keywords
artificial muscle; biomimetic actuation; stimulus-responsive materials; volume-change mechanism; soft robotics
Citation
BIOMIMETICS, v.10, no.12, pp 1 - 22
Pages
22
Indexed
SCIE
SCOPUS
Journal Title
BIOMIMETICS
Volume
10
Number
12
Start Page
1
End Page
22
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210239
DOI
10.3390/biomimetics10120816
ISSN
2313-7673
2313-7673
Abstract
Artificial muscles translate the biological principles of motion into soft, adaptive, and multifunctional actuation. This review accordingly highlights research into natural actuation strategies, such as skeletal muscles, muscular hydrostats, spider silk, and plant turgor systems, to reveal the principles underlying energy conversion and deformation control. Building on these insights, polymer-based artificial muscles based on these principles, including pneumatic muscles, dielectric elastomers, and ionic electroactive systems, are described and their capabilities for efficient contraction, bending, and twisting with tunable stiffness and responsiveness are summarized. Furthermore, the abilities of carbon nanotube composites and twisted yarns to amplify nanoscale dimensional changes through hierarchical helical architectures and achieve power and work densities comparable to those of natural muscle are discussed. Finally, the integration of these actuators into soft robotic systems is explored through biomimetic locomotion and manipulation systems ranging from jellyfish-inspired swimmers to octopus-like grippers, gecko-adhesive manipulators, and beetle-inspired flapping wings. Despite rapid progress in the development of artificial muscles, challenges remain in achieving long-term durability, energy efficiency, integrated sensing, and closed-loop control. Therefore, future research should focus on developing intelligent muscular systems that combine actuation, perception, and self-healing to advance progress toward realizing autonomous, lifelike machines that embody the organizational principles of living systems.
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서울 의과대학 (DEPARTMENT OF PHARMACOLOGY)
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