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Soft network composite materials with deterministic and bio-inspired designs

Authors
Jang, Kyung-InChung, Ha UkXu, ShengLee, Chi HwanLuan, HaiwenJeong, JaewoongCheng, HuanyuKim, Gwang-TaeHan, Sang YounLee, Jung WooKim, JeonghyunCho, MoongeeMiao, FuxingYang, YiyuanJung, Han NaFlavin, MatthewLiu, HowardKong, Gil WooYu, Ki JunRhee, Sang IlChung, JeahoonKim, ByunggikKwak, Jean WonYun, Myoung HeeKim, Jin YoungSong, Young MinPaik, UngyuZhang, YihuiHuang, YonggangRogers, John A.
Issue Date
Mar-2015
Publisher
Nature Publishing Group
Citation
Nature Communications, v.6, pp 1 - 11
Pages
11
Indexed
SCI
SCIE
SCOPUS
Journal Title
Nature Communications
Volume
6
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/157747
DOI
10.1038/ncomms7566
ISSN
2041-1723
2041-1723
Abstract
Hard and soft structural composites found in biology provide inspiration for the design of advanced synthetic materials. Many examples of bio-inspired hard materials can be found in the literature; far less attention has been devoted to soft systems. Here we introduce deterministic routes to low-modulus thin film materials with stress/strain responses that can be tailored precisely to match the non-linear properties of biological tissues, with application opportunities that range from soft biomedical devices to constructs for tissue engineering. The approach combines a low-modulus matrix with an open, stretchable network as a structural reinforcement that can yield classes of composites with a wide range of desired mechanical responses, including anisotropic, spatially heterogeneous, hierarchical and self-similar designs. Demonstrative application examples in thin, skin-mounted electrophysiological sensors with mechanics precisely matched to the human epidermis and in soft, hydrogel-based vehicles for triggered drug release suggest their broad potential uses in biomedical devices.
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