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Closed-Loop and Sustainable 4D Printing of Multi-Stimuli-Responsive Sulfur-Rich Polymer Composites for Autonomous Task Execution

Authors
Hwang, Jae HyukWon, SukyoungLee, Ji MokCho, WoongbiPark, SungminKim, HyunChae, Chang-GeunLee, WoohwaKim, Dong-GyunWie, Jeong JaeKim, Yong Seok
Issue Date
Nov-2025
Publisher
WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Keywords
closed-loop 4D printing; magneto-responsive actuation; shape-morphing; soft robotics; sulfur-rich polymer
Citation
Advanced Materials, v.37, no.44, pp 1 - 15
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
Advanced Materials
Volume
37
Number
44
Start Page
1
End Page
15
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209598
DOI
10.1002/adma.202507057
ISSN
0935-9648
1521-4095
Abstract
Shape-programmable polymer networks derived from waste elemental sulfur hold great potential for diverse applications such as 4D printing and soft robotics. However, their crosslinked nature makes it challenging to 3D print complex geometry for soft robots. Herein, a closed-loop 4D printing strategy is reported of poly(phenylene polysulfide) networks (PSNs) and their magnetic particle composites (MPSNs) to fabricate multi-functional soft robots with programmable shape-morphing capabilities. The dynamic S─S bonds within the loosely crosslinked PSNs impart shear-thinning behavior, enabling hot-melt extrusion of both PSNs and MPSNs into complex architectures. After shape-programming, 3D-printed PSN and MPSN structures exhibit heat- or light-triggered shape recovery and allow modular assembly for spatially selective shape-morphing governed by the distinct glass transition temperatures of the PSN series. These architectures can be readily reprinted into new form factors, demonstrating a closed-loop and sustainable 4D printing. With multi-stimuli responsiveness and solvent resistance provided by the PSN composites, the MPSN capsule serves as an on-demand catalyst-releasing magnetic stirring bar in a reagent-containing solution, autonomously releasing catalysts at a preset temperature to facilitate carbamate synthesis. The 4D printable MPSNs offer a sustainable platform not only for adaptable shape-morphing and dynamic actuation but also for autonomous task execution in next-generation soft robotic applications.
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