Baoyi Wu
Chinese Academy of Sciences
21 Papers
Baoyi Wu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Self-healing hydrogels & Computer science. The author has an hindex of 5, co-authored 9 publications. Previous affiliations of Baoyi Wu include Shanghai University.
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Papers
Bioinspired Synergistic Fluorescence‐Color‐Switchable Polymeric Hydrogel Actuators
Shuxin Wei,Wei Lu,Xiaoxia Le,Chunxin Ma,Han Lin,Baoyi Wu,Jiawei Zhang,Patrick Theato,Tao Chen +8 more
TL;DR: Artificial hydrogel apricot flowers and chameleons are fabricated for the first time, in which simultaneous color-changing and shape-morphing behaviors are controlled by a subtle interplay between acidity/alkalinity, metal ions and temperature.
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pH and Thermo Dual-Responsive Fluorescent Hydrogel Actuator.
Baoyi Wu,Baoyi Wu,Xiaoxia Le,Yukun Jian,Wei Lu,Zhenyu Yang,Zhikun Zheng,Patrick Theato,Jiawei Zhang,Afang Zhang,Tao Chen +10 more
TL;DR: A novel fluorescent hydrogel actuator with pH and thermo dual responsiveness is proposed, which exhibits stable thermoresponsive shape deformation and switchable fluorescence performance upon a pH trigger.
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Actuating Supramolecular Shape Memorized Hydrogel Toward Programmable Shape Deformation.
Huanhuan Lu,Baoyi Wu,Xuxu Yang,Jiawei Zhang,Yukun Jian,Huizhen Yan,Huizhen Yan,Dachuan Zhang,Qunji Xue,Tao Chen +9 more
TL;DR: A novel bilayer hydrogel having a thermoresponsive actuating layer and a metal ion-responsive memorizing layer is proposed, which can be fixed into various 3D shapes via supramolecular metal-ligand coordination, thus producing diverse reversible shape deformation performances, which is expected to promote the development of intelligent polymeric materials.
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Antifreezing and Stretchable Organohydrogels as Soft Actuators.
Yukun Jian,Baoyi Wu,Xiaoxia Le,Yun Liang,Yuchong Zhang,Dachuan Zhang,Ling Zhang,Wei Lu,Jiawei Zhang,Tao Chen +9 more
- 13 Dec 2019
TL;DR: By introducing the ionic compound KI into the glycerol-based organogel, flexible conductors that could perform stable sensing performance over a wide range of temperatures from -30°C to 60°C have been developed.
Bio-inspired Structure-editing Fluorescent Hydrogel Actuators for Environment-interactive Information Encryption.
TL;DR: In this article , the authors learn from the metamorphosis development of glowing octopus to construct proof-of-concept fluorescent hydrogel actuators with life-like structure-editing capacity by developing a universal stepwise inside-out growth strategy.
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