The development of wearable soft electronic skins requires the production of materials with
high mechanical flexibility, an inherent self-healing mechanism, and high breathability …

The rapid development of wearable smart devices with the ability to detect physiological
activity has contributed to a huge demand for smart strain sensors. However, conventional …

Intrinsically stretchable electronics represent an attractive platform for next-generation
implantable devices by reducing the mechanical mismatch and the immune responses with …

Soft multimodal sensors in practical applications for health monitoring and human–machine
interfaces require them to show sufficiently high sensitivity over wide sensing rages, rapid …

Stretchable microsupercapacitors represent emerging miniaturized energy‐storage devices
for next‐generation deformable electronics. Two‐dimensional (2D) transition metal carbides …

With the rapid development of electronic information technology, composite materials with
outstanding performance in terms of electromagnetic interference (EMI) shielding and strain …

Flexible wearable electronics with multi-functions are bound to become the future
development trend in the fields of intelligent device application, involving human healthcare …

Epidermal electronics have been developed with gas/sweat permeability for long‐term
wearable electrophysiological monitoring. However, the state‐of‐the‐art breathable …

Wearable sensors with long cruising times without the need for an external wire-connected
power supply are urgently required for a continuous physiological signal monitoring. Herein …

Stretchable conductive nanocomposites are essential for deformable electronic devices.
These conductors currently face significant limitations, such as insufficient deformability …