摘要
Electrochemical actuators based on conductive polymers are emerging as a strong competitive in the field of soft actuators because of their intrinsically conformable/elastic nature,low cost,low operating voltage and air-working ability.Recent development has shown that adding electroactive materials,such as CNT and graphene,can improve their actuation performance.Despite the complex material systems used,their output strains(one of the key factors)are generally lower than 1%,which limited further applications of them in multiple scenarios.Here,we report soft electrochemical actuators based on conductive polymer ionogels by embedding polyaniline particles between the PEDOT:PSS nanosheets.Results show that such a hierarchical structure not only leads to a high conductivity(1250 S/cm)but also improved electrochemical activities.At a low operating voltage of 1 V,the maximum strain of these soft actuators reaches an exceptional value of 1.5%,with a high blocking force of 1.3 mN.Using these high-performance electrochemical actuators,we demonstrate soft grippers for manipulating object and a bionic flower stimulated by an electrical signal.This work sets an important step towards enabling the enhanced performance of electrochemical actuators based on conductive polymers with designed microstructures.
基金
This work was supported by China Postdoctoral Science Foundation(2022M711372)
Postdoctoral Research Program of Jiangsu Province(2021K544C)
the General Program of Natural Science Foundation for Higher Education in Jiangsu Province(21KJB510004)
G.Cheng acknowledges the support from young&middle-aged academic leaders of Jiangsu Blue Project and Jiangsu 333 talent fund
L.Xu acknowledges the support from National Natural Science Foundation of China(NSFC No.51905222)
Natural Science Foundation of Jiangsu Province(Grant No.BK20211068)
This work was also supported by International Science and Technology Cooperation Project in Zhenjiang City(Grant No:GJ2020009)。
