Tough, Self-Healing Hydrogels Capable of Ultrafast Shape Changing

Jiang Zhen; Diggle Broden; Shackleford India C. G.; Connal Luke A.

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Tough, Self-Healing Hydrogels Capable of Ultrafast Shape Changing

机译：具有超快变形能力的坚韧，自愈水凝胶

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Achieving multifunctional shape-changing hydrogels with synergistic and engineered material properties is highly desirable for their expanding applications, yet remains an ongoing challenge. The synergistic design of multiple dynamic chemistries enables new directions for the development of such materials. Herein, a molecular design strategy is proposed based on a hydrogel combining acid-ether hydrogen bonding and imine bonds. This approach utilizes simple and scalable chemistries to produce a doubly dynamic hydrogel network, which features high water uptake, high strength and toughness, excellent fatigue resistance, fast and efficient self-healing, and superfast, programmable shape changing. Furthermore, deformed shapes can be memorized due to the large thermal hysteresis. This new type of shape-changing hydrogel is expected to be a key component in future biomedical, tissue, and soft robotic device applications.

机译：实现具有协同和工程化材料性能的多功能可变形水凝胶对于其扩展的应用是非常理想的，但仍然是一个持续的挑战。多种动态化学的协同设计为此类材料的开发提供了新的方向。在本文中，提出了基于结合了酸-醚氢键和亚胺键的水凝胶的分子设计策略。这种方法利用简单且可扩展的化学物质来生产双动态水凝胶网络，该网络具有高吸水率，高强度和韧性，出色的抗疲劳性，快速有效的自修复以及超快速的可编程形状更改。此外，由于较大的热滞后，可以存储变形的形状。这种新型的可变形水凝胶有望成为未来生物医学，组织和软机器人设备应用中的关键组件。

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来源
《Advanced Materials》 |2019年第48期|1904956.1-1904956.10|共10页
作者
Jiang Zhen; Diggle Broden; Shackleford India C. G.; Connal Luke A.;
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Australian Natl Univ Res Sch Chem Canberra ACT 2601 Australia;

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正文语种 eng
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关键词
mechanical strength; multifunctional hydrogels; multiple dynamic bonds; self-healing; shape-changing hydrogels;

机译：机械强度;多功能水凝胶;多个动态键;自我修复;变形水凝胶;

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1. Recent advances in tough and self-healing nanocomposite hydrogels for shape morphing and soft actuators [J] . Cheng Feng-mei, Chen Hong-xu, Li Hai-dong European Polymer Journal . 2020,第1期

机译：用于形状变形和软致动器的韧性和自愈纳米复合水凝胶的最新进展
2. Stretchable self-healing hydrogels capable of heavy metal ion scavenging [J] . Song Dandan, Kang Beibei, Zhao Zengdian, RSC Advances . 2019,第33期

机译：可伸展的自愈水凝胶，能够重金属离子清除
3. Stretchable self-healing hydrogels capable of heavy metal ion scavenging [J] . Dandan Song, Beibei Kang, Zengdian Zhao, RSC Advances . 2019,第33期

机译：能够清除重金属离子的可拉伸自修复水凝胶
4. Tough Hydrogels with Programmable and Complex Shape Deformations by Ion Dip-Dyeing and Transfer Printing [C] . Xin Peng, Huiliang Wang The 12th International Symposium on Polymer Physics(PP’2016)(2016年第十二届国际高分子物理学术讨论会）论文集 . 2016

机译：通过离子浸染和转移印刷具有可编程和复杂形状变形的坚韧水凝胶
5. Fabrication of Tissue Precursors Induced by Shape-changing Hydrogels. [D] . Akintewe, Olukemi O. 2015

机译：变形水凝胶诱导的组织前体的制备。
6. A Highly Stretchable Tough Fast Self-Healing Hydrogel Based on Peptide–Metal Ion Coordination [O] . Liang Zeng, Mingming Song, Jie Gu, 2019

机译：基于肽-金属离子配位的高度可拉伸坚韧快速自愈水凝胶
7. Stretchable self-healing hydrogels capable of heavy metal ion scavenging [O] . Dandan Song, Beibei Kang, Zengdian Zhao, 2019

机译：可伸展的自愈水凝胶，能够重金属离子清除

Tough, Self-Healing Hydrogels Capable of Ultrafast Shape Changing

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