Abstract

The poly‐N‐isopropylacrylamide intelligent hydrogel actuators with high mechanical strength and efficient temperature responses were successfully prepared via molding and three‐dimensional (3D) printing. Addition of nanofibrillated cellulose (NFC) effectively improved the crosslinking density and viscosity of hydrogels, enhancing the mechanical strength and 3D printable property. Based on sufficient polymerization on interface, bilayer hydrogel actuator prepared via molding exhibited efficient bending/unbending deformations. Bending degree in poikilothermy temperature ranging from 25°C to 55°C was higher than that in constant temperature of 55°C. Inspired by the rheology regulation of NFC, 3D printing intelligent hydrogel actuators with NFC content of 10 mg/mL were polymerized efficiently by ultraviolet irradiation. Self‐driven deformation characteristics of 3D printed intelligent hydrogels actuators were regulated via printing parameters including angle, width and length ratio and filling rate of the layered network structure model. The prepared hydrogel material system with molding and 3D printing ability provided material candidates for design and preparation of intelligent soft actuator and robot.

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