Scalable functionalized liquid crystal elastomer fiber soft actuators with multi-stimulus responses and photoelectric conversion

Scalable functionalized liquid crystal elastomer fiber soft actuators with multi-stimulus responses and photoelectric conversion

Liquid crystal elastomer (LCE) fibers exhibit large deformation and reversibility, making them an ideal candidate for soft actuators. It is still challenging to develop a scalable strategy and endow fiber actuators with photoelectric functions to achieve tailorable photo-electro-thermal responsivene...

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Veröffentlicht in:Materials horizons 2023-07, Vol.1 (7), p.2587-2598
Hauptverfasser: Wu, Dingsheng, Zhang, Yanan, Yang, Hanrui, Wei, Anfang, Zhang, Yuxin, Mensah, Alfred, Yin, Rui, Lv, Pengfei, Feng, Quan, Wei, Qufu
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Sprache:eng
Schlagworte:
Actuation
Actuators
Artificial muscles
Automation
Circuits
Continuous fibers
Deformation
Elastomers
Energy harvesting
Formability
Liquid crystals
Long fibers
Manufacturing engineering
Morphing
Photoelectricity
Photothermal conversion
Photovoltaic cells
Robotics
Smart materials
Solar cells
Spinning (materials)
Windows (apertures)
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container_end_page 2598
container_issue 7
container_start_page 2587
container_title Materials horizons
container_volume 1
creator Wu, Dingsheng
Zhang, Yanan
Yang, Hanrui
Wei, Anfang
Zhang, Yuxin
Mensah, Alfred
Yin, Rui
Lv, Pengfei
Feng, Quan
Wei, Qufu
description Liquid crystal elastomer (LCE) fibers exhibit large deformation and reversibility, making them an ideal candidate for soft actuators. It is still challenging to develop a scalable strategy and endow fiber actuators with photoelectric functions to achieve tailorable photo-electro-thermal responsiveness and rapid large actuation deformation. Herein, we fabricated a multiresponsive actuator that consists of LCE long fibers obtained by continuous dry spinning and further coated it with polydopamine (PDA)-modified MXene ink. The designed PDA@MXene-integrated LCE fiber is used for shape-deformable and multi-trigger actuators that can be photo- and electro-thermally actuated. The proposed LCE fiber actuator combines an excellent photothermal and long-term electrically conductive PDA@MXene and a shape-morphing LCE fiber, enabling their robust mechanical flexibility, multiple fast responses (∼0.4 s), and stable and large actuation deformation (∼60%). As a proof-of-concept, we present near-infrared light-driven artificial muscle that can lift 1000 times the weight and an intelligent circuit switch with stable controllability and fast responsiveness (∼0.1 s). Importantly, an adaptive smart window system that integrates light-driven energy harvesting/conversion functions is ingeniously constructed by the integration of a propellable curtain woven by the designed fiber and solar cells. This work can provide insights into the development of advanced intelligent materials toward soft robotics, sustainable energy savings and beyond. Scalable multi-responsive LCE fiber actuators were fabricated and used to manufacture artificial muscles, smart circuit switches and adaptive smart windows.
doi_str_mv 10.1039/d3mh00336a
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As a proof-of-concept, we present near-infrared light-driven artificial muscle that can lift 1000 times the weight and an intelligent circuit switch with stable controllability and fast responsiveness (∼0.1 s). Importantly, an adaptive smart window system that integrates light-driven energy harvesting/conversion functions is ingeniously constructed by the integration of a propellable curtain woven by the designed fiber and solar cells. This work can provide insights into the development of advanced intelligent materials toward soft robotics, sustainable energy savings and beyond. 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As a proof-of-concept, we present near-infrared light-driven artificial muscle that can lift 1000 times the weight and an intelligent circuit switch with stable controllability and fast responsiveness (∼0.1 s). Importantly, an adaptive smart window system that integrates light-driven energy harvesting/conversion functions is ingeniously constructed by the integration of a propellable curtain woven by the designed fiber and solar cells. This work can provide insights into the development of advanced intelligent materials toward soft robotics, sustainable energy savings and beyond. 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As a proof-of-concept, we present near-infrared light-driven artificial muscle that can lift 1000 times the weight and an intelligent circuit switch with stable controllability and fast responsiveness (∼0.1 s). Importantly, an adaptive smart window system that integrates light-driven energy harvesting/conversion functions is ingeniously constructed by the integration of a propellable curtain woven by the designed fiber and solar cells. This work can provide insights into the development of advanced intelligent materials toward soft robotics, sustainable energy savings and beyond. Scalable multi-responsive LCE fiber actuators were fabricated and used to manufacture artificial muscles, smart circuit switches and adaptive smart windows.</abstract><cop>England</cop><pub>Royal Society of Chemistry</pub><pmid>37092244</pmid><doi>10.1039/d3mh00336a</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-5900-698X</orcidid></addata></record>
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source Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Actuation
Actuators
Artificial muscles
Automation
Circuits
Continuous fibers
Deformation
Elastomers
Energy harvesting
Formability
Liquid crystals
Long fibers
Manufacturing engineering
Morphing
Photoelectricity
Photothermal conversion
Photovoltaic cells
Robotics
Smart materials
Solar cells
Spinning (materials)
Windows (apertures)
title Scalable functionalized liquid crystal elastomer fiber soft actuators with multi-stimulus responses and photoelectric conversion
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