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Phase‐Segregated Ductile Eutectogels with Ultrahigh Modulus and Toughness for Antidamaging Fabric Perception

Dengfeng Zhang, Xiujuan Li, Junyue Li, Qiye Wang, Xuemei Dong, Yueyue Wu, Zifan Li, Xinyi Xie, Zhengdong Liu, Fei Xiu, Wei Huang, Juqing Liu

Year
2023
Citations
19

Abstract

Abstract Ionogels are extremely soft ionic materials that can undergo large deformation while maintaining their structural and functional integrity. Ductile ionogels can absorb energy and resist fracture under external load, making them an ideal candidate for wearable electronics, soft robotics, and protective gear. However, developing high‐modulus ionogels with extreme toughness remains challenging. Here, a facile one‐step photopolymerization approach to construct an acrylic acid (AA)‐2‐hydroxyethylacrylate (HEA)‐choline chloride (ChCl) eutectogel (AHCE) with ultrahigh modulus and toughness is reported. With rich hydrogen bonding crosslinks and phase segregation, this gel has a 99.1 MPa Young's modulus and a 70.6 MJ m −3 toughness along with 511.4% elongation, which can lift 12 000 times its weight. These features provide extreme damage resistance and electrical healing ability, offering it a protective and strain‐sensitive coating to innovate anticutting fabric with motion detection for human healthcare. The work provides an effective strategy to construct robust ionogel materials and smart wearable electronics for intelligent life.

Keywords

Materials scienceToughnessComposite materialModulusSoft roboticsCoatingFracture toughnessComputer science

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