posted on 2025-01-11, 02:45authored byHe Tao, Ximin Yuan, Debin Shan, Bin Guo, Jie Xu
Flexible electronic patches have
been widely studied
in various
fields. However, they still face serious challenges in cardio-brain
signaling monitoring to achieve accurate adhesion and detection with
compatibility in mildly humid environments. To tackle these challenges,
we engineered a gelatin hydrogel film cross-linked with a biocompatible
matrix factor and combined it with a blend of liquid metal and PVP
to create the flexible electronic patch. The flexible patch has good
biocompatibility and fatigue resistance due to the incorporation of
liquid metal and natural gelatin, with the conductivity of liquid
metal and minimal toxicity of the gelatin film. It is possible to
securely insert it into the body for a duration of 3 weeks while maintaining
monitoring functionality and withstanding 10 000 cycles of
flexural fatigue. This research provides an innovative approach to
the future advancement of flexible electronic patches.