Stimuli-responsive conductive hydrogels have emerged as a new rising concept in the
hydrogel research field due to their combined advantages of stimuli-responsivity and …

Hydrogels, as classic soft materials, are important materials for tissue engineering and
biosensing with unique properties, such as good biocompatibility, high stretchability, strong …

Conductive hydrogels have emerged as promising material candidates for multifunctional
strain sensors, attributed to their similarity to biological tissues, good wearability, and high …

As an ideal material for flexible sensors, electrically conductive hydrogels (ECHs) has been
faced with water loss and easy freezing, which affects the conductive and tensile properties …

This work demonstrates a stretchable and flexible lactate/O2 biofuel cell (BFC) using
buckypaper (BP) composed of multi‐walled carbon nanotubes as the electrode material …

MXenes are ideal conductive fillers to construct conductive routes for hydrogel-based
flexible sensors owing to their great metallic conductivity, hydrophilicity, and high specific …

Charging wearable energy storage devices with bioenergy from human‐body motions,
biofluids, and body heat holds great potential to construct self‐powered body‐worn …

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 …

The flourishing development in flexible electronics has provoked intensive research in
flexible strain sensors to realize accurate perception acquisition under different external …

Hydrogel has great application prospect in the field of flexible wearable devices; however,
its poor antifreezing and antidrying properties hinder its applications in wearable devices …