The shape-retention and heat-tolerant elastic helix based on azobenzene-polyimide supramolecular assembly

Shuangwen Li, Yongsheng Cui, Shuai Jia, Song Lin, Lan Gong, Haoran An, Yanrong Sun, Linan Xu
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Abstract

Helical structures are ubiquitous in natural and engineered systems across multiple length scales, while they often exhibit nearly uniform radius and pitch. Utilization of biomimetic structure design to develop stretchable and robust 3D helical structures that are shape-preserving and heat-tolerant is of great interest. Herein, we devise flexible 3D helixes by supramolecular self-assembly and high voltage electric field orientation of molecular chains. The 3D helixes not only inherit buffering mechanics with exceptional shape-retention ability against cyclic stretching but also exhibit excellent heat-resistant quality. The results of the experimental tests confirm that the helix can recover its original shape without obvious residual strain and basically withstand after 2000 cycles under force loading of 10 cN. Such robust biomimetic materials hold great prospects in the fields of artificial muscles, wearable materials, and so on.
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基于偶氮苯-聚酰亚胺超分子组装的保形耐热弹性螺旋
螺旋结构在多种长度尺度的自然和工程系统中普遍存在,而它们通常表现出几乎一致的半径和节距。利用仿生结构设计来开发可拉伸和坚固的三维螺旋结构,具有形状保持和耐热性是非常有趣的。在此,我们通过超分子自组装和分子链的高压电场取向来设计柔性三维螺旋。三维螺旋不仅继承了缓冲力学特性,对循环拉伸具有优异的保形能力,而且具有优异的耐热性。实验结果证实,在10cn的力载荷作用下,螺旋可以恢复到原来的形状,没有明显的残余应变,在2000次循环后基本可以承受。这种鲁棒仿生材料在人造肌肉、可穿戴材料等领域有着广阔的应用前景。
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