With increasing interest and demand for wearable sensor devices, fabricating a flexible
hydrogel sensor combining high toughness and adhesiveness is necessary but remains …

Currently, flexible and conductive hydrogels have become promising materials for wearable
strain sensors. However, adhering to skin seamlessly without any adhesive tape or bandage …

To accurately monitor human physiological activities and promote wound healing, flexible
electronics with excellent electromechanical and biotherapeutic properties are demanding …

Soft, stretchable, and elastic hydrogels have recently attracted immense interest due to their
potential applications in wearable strain sensors. However, most of hydrogel-based sensors …

Flexible and conductive hydrogel sensors have great potential for applications in wearable
and implantable devices, electronic skin and healthcare diagnosis. However, it remains a …

Conductive hydrogels are regarded as one of the promising synthetic materials for emerging
applications such as soft robotics, bioelectronics, and wearable devices. Herein, poly (N-[tris …

Epidermal sensors via self-adhesive hydrogels offer great promise for the motion detection,
health monitoring, and disease diagnosis. However, the self-adhesion of recent hydrogel …

Due to their excellent mechanical properties and high tensile strain sensitivity, conductive
hydrogels show great potential applications in the fields of artificial intelligence and human …

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

Flexible hydrogel-based sensors have attracted significant attention due to promising
applications of wearable devices. However, fabricating a flexible hydrogel combining …