Wearable strain sensors show enhanced performance due to lignin-strengthened dynamic networks, and eutectogels exhibit excellent conductivity.
Key evidence includes the multifunctional capabilities of the eutectogels, which combine strength and flexibility for applications in wearable technology.
The method involves creating conductive eutectogels through a strong–weak dynamic network approach, utilizing lignin for reinforcement and performance enhancement.
Results highlight the importance of lignin in developing effective wearable sensors, indicating potential applications in health monitoring and smart textiles.