Polyacrylamide/carboxymethyl chitosan double‐network hydrogels with high conductivity and mechanical toughness for flexible sensors
Runpeng Zeng, Shuxin Lu, Chuyi Qi, Lele Jin, Jinbao Xu, Zhixian Dong, Caihong Lei
Abstract
Abstract Conductive hydrogels are ideal candidate materials for flexible sensors, but the integration of satisfactory mechanical performances with high conductivity to meet the requirements for practical applications remains a challenge. Herein, a tough ionically conductive polyacrylamide (PAAm)/carboxymethyl chitosan (CMCs) double‐network (DN) hydrogel is fabricated via in situ polymerization of acrylamide in CMCs aqueous solution, followed by ferric chloride (FeCl 3 ) solution immersing. The PAAm/CMCs‐Fe 3+ DN hydrogel demonstrates satisfactory mechanical properties, including sufficient tensile strength (~440 kPa), prominent stretchability (~715%), high toughness (~1658 kJ m −3 ), and excellent fatigue resistance, as well as superb conductivity up to 3.1 S m −1 . Moreover, the ionically conductive DN hydrogel‐based sensors exhibit high sensitivity in a broad strain window (0%–700%) and can accurately, and repeatedly monitor the motions of body joints, such as finger and wrist, exhibiting great potential in applications of flexible sensors.