Xiaochun Liu
Guangdong University of Technology
20 Papers
21 Citations
Xiaochun Liu is an academic researcher from Guangdong University of Technology. The author has contributed to research in topics: Biomass & Chemistry. The author has an hindex of 4, co-authored 9 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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High-strength, self-reinforcing and recyclable multifunctional lignin-based polyurethanes based on multi-level dynamic cross-linking
Zhiyi Huang,Huan Wang,Jiahao Du,Xiaochun Liu,Guoyi Pan,Xingshan Yin,Wenjing Lin,Xiaofeng Lin,Yingjuan Sun,Guobin Yi,Li-Yuan Niu +10 more
TL;DR: Researchers developed high-strength, recyclable lignin-based polyurethanes with excellent mechanical properties and thermal stability through multi-level dynamic cross-linking, achieving a 73 MPa mechanical strength and 310.5 °C thermal decomposition temperature.
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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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Ferric ion pair mediated biomass redox flow fuel cell and related chemical reaction kinetics study
Xihong Zu,Sun Lele,Jian Gong,Xiaochun Liu,Liu Yangxi,Xu Du,Wei Liu,Chen Lifen,Guobin Yi,Weigang Zhang,Lin Wenjing,Li Weizhao,Yulin Deng +12 more
TL;DR: In this paper, a low-cost redox flow fuel cell that directly converts raw biomass to electricity at low temperature without utilizing any noble metal catalyst is reported, where reduced Fe2+ acted as charge carriers, transferring the electrons to the anode of the cell and being converted back to Fe3+ simultaneously.
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