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

Growing health awareness triggers the public's concern about health problems. People want
a timely and comprehensive picture of their condition without frequent trips to the hospital for …

Flexible conductive hydrogels with self-healing ability have attracted great attention in the
fields of wearable devices and healthcare monitoring due to their recoverability and …

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

Hydrogels are three-dimensional (3D) cross-linked molecular networks, generally polymers,
capable of holding large amounts of water. The network of a hydrogel is established via …

It is challenging to balance high biocompability with good mechanical–electrical sensing
performance, especially when triggering inflammatory stress response after in vivo …

Cardiovascular diseases (CVDs) are a leading cause of death worldwide. For early
diagnosis, intervention and management of CVDs, it is highly desirable to frequently monitor …

It is a great challenge for traditional hydrogel-based sensors to be effective underwater due
to unsatisfactory water resistance and insufficient wet adhesion. Herein, a tough …

Strain-sensitive and conductive hydrogels have attracted extensive research interest due to
their potential applications in various fields, such as healthcare monitoring, human–machine …

Zwitterionic polymers have attracted research attention in recent years owing to their unique
molecular structures. In the same repeat unit, positive and negative charges are …