Ion–electron based poly(Amm-co-BA)@GO conductive hydrogels for wearable strain sensors.

Creating strain and pressure sensors based on hydrogels with excellent mechanical and conducting properties is a major problem for scientists in the fields of artificial intelligence, soft robotics, tissue engineering, human motion detection, electronic skin, etc. Therefore, in this study graphene oxide (GO) incorporated hydrophobically associated hydrogels with acrylamide (Amm) and butyl acrylate (BA) polymer segments with excellent mechanical properties, fracture strain of 1630%, and stress 551 kPa, showing good anti-fatigue resistance with five continuous cycles at 500% strain were developed. The hydrogel showed excellent strain response with conductivity of 0.246 S/m and can sense small strains of 1% to large strains of 700% with GF = 29.52 at 850% strain) and response time of 110 msec. The designed hydrogel can detect different human motions like wrest bending, elbow motion, finger at one angle as well as at different angles, puffing, and chewing different things. The hydrogel can also act as a pressure sensor and shows a clear response towards constant and uniform pressure. The prepared hydrogel behaved as an electronic pen and connected the electronic surface with human skin. [Display omitted] • Ion-electron based conductive hydrogels for wearable strain sensor. • Sensor demonstrates great cycling stability, large stretchability, quick response times, and a high gauge factor. • The designed hydrogel exhibits outstanding qualities of mechanical toughness and strain 1630%. • Hydrogels were capable of detecting both small and large human movements. • The designed hydrogel successfully behave as an electronic pen. [ABSTRACT FROM AUTHOR]