Soft electronics have seen extensive development due to their lightness,outstanding mechanical flexibility,and biocompatibility,which make them ideal for a variety of applications,including health monitoring,human-mac...Soft electronics have seen extensive development due to their lightness,outstanding mechanical flexibility,and biocompatibility,which make them ideal for a variety of applications,including health monitoring,human-machine interfaces,and advanced augmented reality/virtual reality communications[1,2].Ionic liquid(IL)-based conductive hydrogels are typically made up of a polymer network swollen with IL,which are organic salts in a liquid state at or near room temperature,rather than traditional inorganic/organic salt electrolyte solutions[3-5].These hydrogels leverage the unique properties of IL,such as high ionic conductivity,nonvolatility,and thermal stability,to create a flexible conductive material suitable for various applications in soft electronics,such as actuators,wearable sensors,and stretchable energy generation/storage devices[6-8].展开更多
基金supported by the National Natural Science Foundation of China (52303371)Guangdong Science and Technology Department (STKJ2023075, 2022A1515110209, and 2021B0301030005)+2 种基金Guangdong Education Department (2022KQNCX112)seed fund (GCII-Seed-202406) from GTIIT Changzhou Innovation Institutethe Key Discipline (KD) Fund, the Technion, and the Start-Up Fund from Guangdong Technion。
文摘Soft electronics have seen extensive development due to their lightness,outstanding mechanical flexibility,and biocompatibility,which make them ideal for a variety of applications,including health monitoring,human-machine interfaces,and advanced augmented reality/virtual reality communications[1,2].Ionic liquid(IL)-based conductive hydrogels are typically made up of a polymer network swollen with IL,which are organic salts in a liquid state at or near room temperature,rather than traditional inorganic/organic salt electrolyte solutions[3-5].These hydrogels leverage the unique properties of IL,such as high ionic conductivity,nonvolatility,and thermal stability,to create a flexible conductive material suitable for various applications in soft electronics,such as actuators,wearable sensors,and stretchable energy generation/storage devices[6-8].
