8 Papers
Jianxin Wu is an academic researcher from Zhongkai University of Agriculture and Engineering. The author has contributed to research in topics: Polyurethane & Ultimate tensile strength. The author has an hindex of 1, co-authored 1 publications.
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Papers
Photoreversible Bond-Based Shape Memory Polyurethanes with Light-Induced Self-Healing, Recyclability, and 3D Fluorescence Encryption.
Xiaochun Liu,Jianyu Wu,Zilun Tang,Jianxin Wu,Zhiyi Huang,Xingshan Yin,Jiahao Du,Xiaofeng Lin,Wenjing Lin,Guobin Yi +9 more
TL;DR: In this paper , a shape memory polyurethane network terminated with coumarin units (HEOMC-PU) was designed and fabricated for anti-counterfeiting.
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Construction and mechanism study of lignin-based polyurethane with high strength and high self-healing properties.
Jiahao Du,Huan Wang,Zhiyi Huang,Xiaochun Liu,Xinshan Yin,Jianxin Wu,Wenjing Lin,Xiaofeng Lin,Guobin Yi +8 more
TL;DR: Researchers developed a lignin-based polyurethane (PUDA-L) with high strength, self-healing properties, and thermal stability by combining lignin with Diels-Alder bonds and hydrogen bonds, exhibiting 100% self-healing efficiency and promising applications in sensors and smart skins.
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Rapid Self-Healing and High-Mechanical-Strength Epoxy Resin Coatings Incorporating Dynamic Disulfide Bonds
Jianxin Wu,Xiaochun Liu,Lijing Chen,Jiahao Du,Lei Ji,Yanhong Peng,Liang Liu,Zhenyang Xu,Xiaofeng Lin,Wenjing Lin,Yingjuan Sun,Guobin Yi +11 more
TL;DR: Researchers developed a self-healing epoxy resin coating with dynamic disulfide bonds and flexible chains, achieving high mechanical strength (33.30 MPa) and self-healing efficiency (93.68%), with potential applications in next-generation coatings.
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Photothermal-responsive lignin-based polyurethane with mechanically robust, fast self-healing, solid-state plasticity and shape-memory performance.
Xiaochun Liu,Zhiyi Huang,Jianxin Wu,Jianyu Wu,Hongsheng Luo,Yingjuan Sun,Xiaofeng Lin,Wenjing Lin,Guobin Yi +8 more
TL;DR: Researchers develop a lignin-based polyurethane (DLPU) with photothermal-responsiveness, exhibiting excellent mechanical strength, toughness, self-healing, solid-state plasticity, and shape-memory performance, offering a sustainable alternative to traditional petrochemical-based materials.
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Tough, self‐healing, and recyclable cross‐linked polyurethane elastomers via synergistic effect of dual dynamic covalent bonds
Xiaochun Liu,Jianyu Wu,Jianxin Wu,Zhiyi Huang,Wei Shen,Xingshan Yin,Yingjuan Sun,Xiaofeng Lin,Wenjing Lin,Guobin Yi +9 more
TL;DR: Tough, self‐healing, and recyclable cross‐linked polyurethane elastomers via synergistic effect of dual dynamic covalent bonds exhibit exceptional mechanical properties and self‐healing performance due to the synergistic effect of oxime‐carbamate bonds and thiourethane bonds.