課題組導電水凝膠最新研究結果在Journal of Materials Chemistry C 在線發表���!
該工作得到了國家自然科學青年基金��、陜西省普通高校青年杰出人才計劃�����、陜西省自然科學基礎研究計劃項目、陜西省高?����?茀f青年人才托舉計劃項目的資助�。
文章信息:
Jialiang Lai,Hongwei Zhou,*Mingcheng Wang, Yaokun Chen, Zhaoyang Jin, Shuangli Li, Jingjing Yang, Xilang Jin,*Hanbin Liu,* Weifeng Zhao, Recyclable, Stretchable and Conductive Double Network Hydrogels towards Flexible Strain Sensors, Journal of Materials Chemistry C, 2018, DOI: 10.1039/C8TC04958K. (SCI一區,IF=5.976)
文章鏈接:https://pubs.rsc.org/en/content/articlelanding/2014/TC/C8TC04958K#!divAbstract
摘要:
Stretchable and elastic double network (DN) hydrogels are increasingly investigated for flexible electronics but their recyclability is rarely considered. Herein, recyclable, stretchable and conductive DN-hydrogels are explored and utilized in flexible resistive-type strain sensors. Such DN-hydrogels are fully physically cross-linked and composed of a crystalline domain cross-linked poly(vinyl alcohol) (PVA) network and a Tb3+-cross-linked poly(acrylic acid sodium) (PAANa-Tb3+) network. Due to their unique structure, the DN-hydrogels have excellent recyclability and flexibility, and they are also conductive and photoluminescent due to the presence of Tb3+. Utilizing the DN-hydrogels, flexible strain sensors are assembled and further applied to monitor large human motions, such as moving of two hands and bending of joints, as well as subtle physiological activities including moving of bicipital muscle, swallowing and breathing. Overall, the present example not only helps to understand the toughening and strengthening mechanism of fully physically cross-linked DN-hydrogels, but also offers a clue to develop multifunctional hydrogels for recyclable flexible electronics.