9 Papers
2 Citations
Jin Wang is an academic researcher from South China University of Technology. The author has contributed to research in topics: Chemistry & Artificial muscle. The author has an hindex of 1, co-authored 1 publications.
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Papers
Biomimetic high performance artificial muscle built on sacrificial coordination network and mechanical training process.
TL;DR: In this article, the authors used dynamic sacrificial bonds which are rearranged via a mechanical training process to optimise the characteristics of self-strengthening, strain-adaptive stiffening and actuation.
Self-poled piezoelectric polymer composites via melt-state energy implantation
Zhao-Xia Huang,Lan-Wei Li,Yunxie Huang,Wen-Xu Rao,Haojie Jiang,Jin Wang,Huanhuan Zhang,He-Zhi He,Jin-Ping Qu +8 more
TL;DR: Researchers develop self-poled piezoelectric polymer composites via melt-state energy implantation, achieving high performance, lightweight, and flexible materials for sustainable sensing and energy harvesting applications with improved durability and efficiency.
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A fast-response biomimetic phototropic material built by a coordination-assisted photothermal domino strategy.
Zhi-Wei Tu,Jin Wang,Weifeng Liu,Zhijun Chen,Jinhao Huang,Jinxing Li,Hongming Lou,Xueqing Qiu +7 more
TL;DR: The so-called photothermal domino strategy for constructing fast-response artificial phototropic materials is reported, which is a promising tool for solar energy utilisation and preparation remains challenging.
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Stress-Free Two-Way Shape-Memory Mechanism of a Semicrystalline Network with a Broad Melting Transition
TL;DR: In this paper , a broad melting transition semicrystalline network with a reversible elongation above 10% was presented, and the authors investigated the structural origins of the reversible elongations by experiments and theoretically analyzed thermodynamic and molecular mechanisms associated with the mechanism.
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Actuation Mechanisms of a Semicrystalline Elastomer-Based Polymer Artificial Muscle with High Actuation Strain
TL;DR: In this paper , the entropy-elastic actuation and the crystallization-induced elongation (CIE)/melting-induced contraction (MIC) play important roles in controlling the actuation behavior of sePAMs.
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