Authors
Xuzhou Yan, Zhiyuan Liu, Qiuhong Zhang, Jeffrey Lopez, Hui Wang, Hung-Chin Wu, Simiao Niu, Hongping Yan, Sihong Wang, Ting Lei, Junheng Li, Dianpeng Qi, Pingao Huang, Jianping Huang, Yu Zhang, Yuanyuan Wang, Guanglin Li, Jeffery B-H Tok, Xiaodong Chen, Zhenan Bao
Publication date
2018/3/29
Journal
Journal of the American Chemical Society
Volume
140
Issue
15
Pages
5280-5289
Publisher
American Chemical Society
Description
Herein, we report a de novo chemical design of supramolecular polymer materials (SPMs-1–3) by condensation polymerization, consisting of (i) soft polymeric chains (polytetramethylene glycol and tetraethylene glycol) and (ii) strong and reversible quadruple H-bonding cross-linkers (from 0 to 30 mol %). The former contributes to the formation of the soft domain of the SPMs, and the latter furnishes the SPMs with desirable mechanical properties, thereby producing soft, stretchable, yet tough elastomers. The resulting SPM-2 was observed to be highly stretchable (up to 17 000% strain), tough (fracture energy ∼30 000 J/m2), and self-healing, which are highly desirable properties and are superior to previously reported elastomers and tough hydrogels. Furthermore, a gold, thin film electrode deposited on this SPM substrate retains its conductivity and combines high stretchability (∼400%), fracture/notch insensitivity …
Scholar articles
X Yan, Z Liu, Q Zhang, J Lopez, H Wang, HC Wu, S Niu… - Journal of the American Chemical Society, 2018