Self-healing, adhesive conductive hydrogels are of great significance in wearable electronic
devices, flexible printable electronics, and tissue engineering scaffolds. However, designing …

Wearable pressure sensing solutions have promising future for practical applications in
health monitoring and human/machine interfaces. Here, a highly sensitive, low-cost …

Hydrogel strain sensors have attracted tremendous attention in medical monitoring, flexible
wearable devices, and human–machine interfaces. However, traditional hydrogels exhibit …

Flexible sensors have shown great potential in remote health monitoring, body movements
track, electronic skin, human-machine interfaces, and soft robotics. Hydrogels possess …

Recently, flexible wearable and implantable electronic devices have attracted enormous
interest in biomedical applications. However, current bioelectronic systems have not solved …

Flexible energy storage materials and sensors have become the key equipment of human–
machine interface technology. For the preparation of these devices, hydrogel electrodes are …

Hydrogel-based wearable devices have attracted tremendous interest due to their potential
applications in electronic skins, soft robotics, and sensors. However, it is still a challenge for …

It can be envisaged that in the future, wearable electronics will be skin-like and “unfeelable”.
High stretchability (strain> 100%), skin-like Young's modulus (< 25 kPa), and high …

As a classic flexible material, hydrogels show great potential in wearable electronic devices.
The application of strain sensors prepared using them in human health monitoring and …

Currently, flexible wearable hydrogel-based sensors have attracted considerable attention
due to their promising applications in a variety of fields. However, concurrently integrating …