Recently, hydrogel-based conductive materials and their applications as smart wearable
devices have been paid tremendous attention due to their high stretchability, flexibility, and …

Over the past few years, development of wearable devices has gained increasing
momentum. Notably, the demand for stretchable strain sensors has significantly increased …

Real‐time continuous monitoring of non‐cognitive markers is crucial for the early detection
and management of chronic conditions. Current diagnostic methods are often invasive and …

The conventional method of using montmorillonite hemostatic materials affects the
hemostatic effect due to easy dislodgement on the wound surface. In this paper, a …

A conductive and biocompatible hybrid hydrogel was successfully assembled into an
adhesive, flexible wearable sensor for ultra-sensitive human–computer interaction and …

The material would inevitably suffer a series of damages in operation, including cracks,
piercing and delamination, which would lead to a degradation of performance and even …

Wearable sensors based on hydrogels have been rapidly developed in many fields such as
electronic skin, health detection, and human-machine interface. Wearable sensors for real …

The unique network characteristics and stimuli responsiveness of supramolecular hydrogels
have rendered them highly advantageous in the field of wound dressings, showcasing …

Recording electrophysiological information such as brain neural signals is of great
importance in health monitoring and disease diagnosis. However, foreign body response …

Hydrogel based flexible sensors have been considered as promising wearable devices in
human–machine interactions, which are of great significance in mobile communications …