TY - JOUR
T1 - A self-healing and self-adhesive chitosan based ion-conducting hydrogel sensor by ultrafast polymerization
AU - Li, Jingwen
AU - Yang, Zhongli
AU - Jiang, Zhicheng
AU - Ni, Mengying
AU - Xu, Min
N1 - Publisher Copyright:
© 2022 Elsevier B.V.
PY - 2022/6/1
Y1 - 2022/6/1
N2 - Recently, owing to the wide applications in electronic skin and human activity monitoring, flexible hydrogel strain sensors have attracted great attention. And the better preparation with more efficient is always common aspiration. In this work, acrylamide (AM) was in situ polymerized in chitosan (CS) matrix to prepare hydrogels (PAM@CS). Inspired by the adhesion of natural mussels, plant polyphenol tannic acid (TA) was introduced into the system, Fe3+ was also introduced as redox agent to perform an ultrafast polymerization, and the composite hydrogel PAM@CS/TA-Fe can be prepared at 60 °C within 1 min. The hydrogels are ion conductive and show good sensing performance in detecting major and subtle body motions. Benefiting from the multiple dynamic noncovalent bonds, the PAM@CS/TA-Fe hydrogels also show excellent adhesion performance and good self-healing property, which would expand their application range in wearable and flexible electronic equipment.
AB - Recently, owing to the wide applications in electronic skin and human activity monitoring, flexible hydrogel strain sensors have attracted great attention. And the better preparation with more efficient is always common aspiration. In this work, acrylamide (AM) was in situ polymerized in chitosan (CS) matrix to prepare hydrogels (PAM@CS). Inspired by the adhesion of natural mussels, plant polyphenol tannic acid (TA) was introduced into the system, Fe3+ was also introduced as redox agent to perform an ultrafast polymerization, and the composite hydrogel PAM@CS/TA-Fe can be prepared at 60 °C within 1 min. The hydrogels are ion conductive and show good sensing performance in detecting major and subtle body motions. Benefiting from the multiple dynamic noncovalent bonds, the PAM@CS/TA-Fe hydrogels also show excellent adhesion performance and good self-healing property, which would expand their application range in wearable and flexible electronic equipment.
KW - Conductive hydrogels
KW - Flexible wearable sensor
KW - Self-adhesive
KW - Self-healing
KW - Ultrafast polymerization
UR - https://www.scopus.com/pages/publications/85129538958
U2 - 10.1016/j.ijbiomac.2022.04.176
DO - 10.1016/j.ijbiomac.2022.04.176
M3 - 文章
C2 - 35500766
AN - SCOPUS:85129538958
SN - 0141-8130
VL - 209
SP - 1975
EP - 1984
JO - International Journal of Biological Macromolecules
JF - International Journal of Biological Macromolecules
ER -