Hydrogels have emerged as powerful building blocks to develop various soft bioelectronics
because of their tissue‐like mechanical properties, superior bio‐compatibility, the ability to …

A gelatin-based hydrogel system is a stimulus-responsive, biocompatible, and
biodegradable polymeric system with solid-like rheology that entangles moisture in its …

Ionic conductive hydrogels (ICHs) integrate the conductive performance and soft nature of
tissue‐like materials to imitate the features of human skin with mechanical and sensory …

Conductive hydrogels can be prepared by incorporating various conductive materials into
polymeric network hydrogels. In recent years, conductive hydrogels have been developed …

Tannic acid (TA), a natural polyphenol, is a hydrolysable amphiphilic tannin derivative of
gallic acid with several galloyl groups in its structure. Tannic acid interacts with various …

Gelatin's versatile functionalization offers prospects of facile and effective crosslinking as
well as combining with other materials (eg, metal nanoparticles, carbonaceous, minerals …

In recent years, flexible wearable electronics have been widely used in smart wearable
devices, micro-robots, and sensors due to their seamless integration with the human body …

Wearable strain sensors based on conductive hydrogels have attracted much attention due
to their great application potential in fields such as human motion and health monitoring …

Flexible and wearable hydrogel strain sensors have attracted tremendous attention for
applications in human motion and physiological signal monitoring. However, it is still a great …

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