Abstract

Abstract A novel electro‐active polymer actuator employing the ionic networking membrane of poly(styrene‐ alt ‐maleimide) (PSMI)‐incorporated poly(vinylidene fluoride) (PVDF) was developed to improve the electrical and mechanical performance of the artificial muscles. The main drawback of the previous ionic polymer‐metal composite actuator was the straightening‐back and relaxation under the constant voltage excitation. The present ionic networking membrane actuator overcomes the relaxation of the ionic polymer‐metal composite actuator under the constant voltage and also shows much larger tip displacement than that of the Nafion‐based actuator. Under the simple harmonic stimulus, the measured mechanical displacement was comparable to that of the Nafion‐based actuator. The excellent electromechanical response of the current polymer actuator is attributed to two factors: the inherent large ionic‐exchange capacity and the unique hydrophilic nano‐channels of the ionic networking membrane. The electro‐active polymer actuator of PSMI‐incorporated PVDF can be a promising smart material and may possibly diversify niche applications in biomimetic motion.