Ionically conductive hydrogels constructed with the participation of aliphatic polycarbonates for multi-scenario flexible electronics and bioelectrical signal sensing
Key Points
The research aims to develop ionically conductive hydrogels using aliphatic polycarbonates for flexible electronics and bioelectrical signal sensing.
Developed a dual physically crosslinked hydrogel
Evaluated comprehensive performance in multiple scenarios
Tested applications in bioelectrical sensing, writing recognition, and robotic control.
Achieved good overall performance in multi-scenario applications
Successfully utilized in bioelectrical sensing and writing recognition
Showed potential for integration in robotic control systems.
Abstract
A dual physically crosslinked hydrogel exhibits good comprehensive performance, achieves multi-scenario applications including bioelectrical sensing, writing recognition, and robotic control.
Ionically conductive hydrogels constructed with the participation of aliphatic polycarbonates for multi-scenario flexible electronics and bioelectrical signal sensing | Synapse