Locally controllable magnetic soft actuators with reprogrammable contraction-derived motions

Wu, Yahe; Zhang, Shuai; Yang, Yang; Li, Zhen; Wei, Yen

doi:10.1126/sciadv.abo6021

Cited by 78 publications

(51 citation statements)

References 62 publications

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“…3(d)). 42,123 Acrylate groups were introduced into the LCE film to form permanent covalent bonds through thermal polymerization to ensure the stable welding of the film. The welding of LCE with different compositions via interfacial welding techniques enables robotic structures to selectively respond to light and heat in different regions.…”

Section: Integration Methods For Multifunctional Miniature Soft Robotsmentioning

confidence: 99%

Multicomponent and multifunctional integrated miniature soft robots

et al. 2022

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Section: Integration Methods For Multifunctional Miniature Soft Robotsmentioning

confidence: 99%

Multicomponent and multifunctional integrated miniature soft robots

et al. 2022

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“…Soft robots, or soft actuators, are developed from intrinsically conformable materials inspired by the behaviors of living organisms, which have significant advantages over rigid robots for the safe and adaptive interaction with humans and harsh environments. − Soft robots have gained increasing attention for their numerous real-world applications, such as tissue engineering, assistive healthcare devices, and aeronautics. , Stimuli-responsive liquid crystalline elastomers (LCEs) are promising candidates for soft robots, featuring unique optomechanical response, reversible large actuation, and robust mechanical properties because of the synergistic effect of polymer entropy elasticity and anisotropic liquid crystalline (LC) alignment. − LCEs are typically prepared by first orientation of mesogenic groups via mechanical stretching or surface alignment, and subsequent fixation of LC network anisotropy via crosslinking reactions . Upon reversible order–disorder phase transition of mesogenic groups, LCEs can undergo macroscopic and reversible shape changes in response to light, heat, magnetic fields, etc . − However, LCEs generally exhibit poor processability because of the insoluble and infusible crosslinked networks. The most reported works of monolithic LCE actuators can only achieve simplex deformations such as bending, oscillating, and waving. − To meet the growing demand for soft robots, it is highly urgent for multicomponent and heterostructured LCEs with improved dexterity and flexibility to perform sophisticated operations.…”

Section: Introductionmentioning

confidence: 99%

Ultrasonic-Excited Ultrafast Seamless Integration of Heterostructured Liquid Crystalline Elastomers for Multi-responsive Soft Actuators

Zheng

Yuan

et al. 2023

ACS Appl. Mater. Interfaces

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Multicomponent/heterostructured liquid crystalline elastomers (LCEs) have recently garnered extensive attention for the design of soft robots with high dexterity and flexibility. However, the reported integration strategies of LCEs seriously suffer from high welding temperature, long processing time, and poor joint quality. Herein, the high-efficiency seamless ultrasonic welding (UW) of reprogrammable silver nanowire−LCE composites (AgNW−LCEs) have been realized without any auxiliary reagents based on the dynamic silver− disulfide coordination interactions. The elaborate combination of silver− disulfide coordination interactions and UW technology establishes an effective double-network welding mechanism of AgNWs and dynamic LC networks due to the high-frequency vibration at the welding interface. During the UW process, monolithic AgNW−LCEs can be integrated into heterostructured actuators at room temperature for 0.68 s. Furthermore, the welded AgNW−LCEs demonstrate an exceptional strain healing efficiency of ∼100%, a stress healing efficiency of ∼85%, and a maintained orientation of the LC alignment. Taking advantage of the high-efficiency UW technology, the heterostructured AgNW−LCE actuators with different LC alignments or LC monomers have been successfully implemented for a multi-degree-of-freedom soft robotic arm and a time-modulated flower-mimic actuator. This work provides an efficient approach toward the development of multi-responsive entirely soft actuators based on smart polymers.

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“…Stimuli-responsive polymeric materials have attracted substantial attention due to the surging development of intelligent devices such as smart actuators, soft robotics, tissue scaffolds, and unfolder devices [1][2][3][4]. Thermosetting stimuli-responsive materials are preferable for their mechanical properties and dimensional stabilities [5] compared to thermoplastic ones.…”

Section: Introductionmentioning

confidence: 99%

Adaptable Phosphate Networks towards Robust, Reprocessable, Weldable, and Alertable-Yet-Extinguishable Epoxy Vitrimer

Chen

et al. 2022

Research

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Covalent adaptable networks (CANs) combine the uniqueness of thermoplastics and thermosets to allow for reprocessability while being covalently crosslinked. However, it is highly desirable but rarely achieved for CANs to simultaneously demonstrate reversibility and mechanical robustness. Herein, we report a feasible strategy to develop a novel epoxy vitrimer (EV) composed of adaptable phosphate networks (APNs), by which the EVs exhibit promising mechanical properties (tensile strength of 62.5 ~ 87.8 MPa and tensile modulus of 1360.1 ~ 2975.3 MPa) under ambient conditions. At elevated temperatures, the topology rearrangement occurs relied on phosphate transesterification, which contributes to the shape memory performance, self-healing, reprocessing, and welding behaviors. Moreover, the incorporation of APNs allows for improvements in anti-ignition and also the inhibition of both heat release and smoke generation to avoid empyrosis, asphyxiation, and toxication during burning, showing expected intrinsic fire safety. Thermal, mechanical properties, and flame retardancy of the reprocessed EVs after hot pressing are very close to those of the original EVs, which is attributed to the sufficient reversibility of APNs. Accordingly, combining the aforementioned features, EVs are manufactured as flame-triggered switches for fire alarms, which symbolizes the innovative development of high-performance covalent adaptable polymeric materials.

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Locally controllable magnetic soft actuators with reprogrammable contraction-derived motions

Cited by 78 publications

References 62 publications

Multicomponent and multifunctional integrated miniature soft robots

Multicomponent and multifunctional integrated miniature soft robots

Ultrasonic-Excited Ultrafast Seamless Integration of Heterostructured Liquid Crystalline Elastomers for Multi-responsive Soft Actuators

Adaptable Phosphate Networks towards Robust, Reprocessable, Weldable, and Alertable-Yet-Extinguishable Epoxy Vitrimer

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