To date, hydrogels have gained increasing attentions as a flexible conductive material in
fabricating soft electronics. However, it remains a big challenge to integrate multiple …

With good flexibility and biocompatibility, hydrogel-based sensors have been widely used in
human motion detection, artificial intelligence, human–machine interface, and other fields …

Antifatigue fracture performance and high sensing sensitivity are key characteristics for
hydrogel sensors used in flexible electronic applications. Herein, inspired by human muscle …

Wearable sensors made of flexible and stretchable hydrogels have garnered significant
attention. However, their use has been limited by poor mechanical performance, such as …

As the essential substrates for the manufacture of flexible electronic devices, conductive
hydrogels have shown great potential in the fields of flexible strain sensors, wearable …

Flexible biosensors made from conductive hydrogels have shown tremendous potential in
health management and human–machine interfaces. Nevertheless, it remains challenging …

Biomimetic skin-like electric materials have been rapidly developed for human–machine
interfaces, health monitoring, and soft robots. However, achieving a combination of …

Flexible and conductive hydrogels have been widely used in the field of flexible wearable
sensors. However, the traditional carbon-based composite hydrogel sensors tend to present …

Conductive hydrogels featuring a modulus similar to the skin have flourished in health
monitoring and human-machine interface systems. However, developing conductive …

Flexible pressure and strain sensors have great potential for applications in wearable and
implantable devices, soft robotics and artificial skin. Compared to flexible sensors based on …