Monolithically Assembled 3D Soft Transformable Robot

With the growing demand for soft robots capable of various degrees of locomotion based on reversibly actuating liquid crystalline networks (LCNs), the fabrication of complex 3D architectures from 2D LCN films via shape reconfiguration and/or assembly techniques are studied recently. However, once a...

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Bibliographic Details
Published inAdvanced intelligent systems Vol. 4; no. 9
Main Authors Hwang, Jae Hyuk, Shin, Jeehae, Han, Jiseok, Choi, Yong-Seok, Park, Sungmin, Kim, Yun Ho, Kim, Yong Seok, Kang, Hong Suk, Kim, Dong-Gyun, Lee, Jong-Chan
Format Journal Article
LanguageEnglish
Published Weinheim John Wiley & Sons, Inc 01.09.2022
Wiley
Subjects
Chemical bonds
Dismantling
dynamic covalent bonds
Light
liquid crystalline networks
Liquid crystals
Locomotion
Reconfiguration
reversible assembly
Robot dynamics
Robotics
Robots
shape reconfiguration
Soft robotics
soft robots
Ultraviolet radiation
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Summary:With the growing demand for soft robots capable of various degrees of locomotion based on reversibly actuating liquid crystalline networks (LCNs), the fabrication of complex 3D architectures from 2D LCN films via shape reconfiguration and/or assembly techniques are studied recently. However, once a system is formed and fixed into a specific 3D structure, only certain movements can be implemented using the fixed structure, and disassembly into the original 2D films is challenging. Therefore, studies to overcome this irreversible fabrication process become increasingly important. Herein, an effective and simple preparation of static and dynamic covalent dual‐cross‐linked, photo‐controllable LCN (pc‐LCN) films as building blocks for lego‐like, monolithically assembled 3D soft transformable robots is presented. By tailoring the static and dynamic covalent linkages in the networks, pc‐LCN films can be readily reconfigured and assembled into complex 3D structures under ultraviolet (UV) irradiation. Such monoliths can also be disassembled into their constituent building block films and reassembled into different architectures under the same UV stimulation. Moreover, by adopting selective visible‐light‐responsive dopant dyes to actuate pc‐LCN building blocks, 3D soft transformable robots with versatile motion capabilities, including rolling, gripping, and cargo transport in multiple directions, are demonstrated. Herein, lego‐like reversible assembly/disassembly and shape reconfiguration of photo‐controllable LCN (pc‐LCN) actuators are demonstrated by tailoring static and dynamic covalent dual cross‐links in a network. Such characteristics enable the monolithic assembly and transformation of complex 3D architectures based on pc‐LCN building blocks containing various visible‐light‐responsive dyes, thereby realizing 3D soft transformable robots capable of versatile locomotion.
ISSN:2640-4567
2640-4567
DOI:10.1002/aisy.202200051