In recent years, the field of flexible electronics has been thriving in academic achievements.
Among them, the hydrogel‐based strain sensors possess some characteristic advantages in …

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

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

Conductive hydrogels have been widely studied for their potential application as wearable
sensors due to their flexibility and biocompatibility. However, the simultaneous incorporation …

Over the years, hydrogels have been extensively studied and got a lot of attraction as
wearable sensors, due to their stretchability and flexibility, however, their application of …

Flexible wearable strain sensors based on hydrogels have become a research hotspot in
recent years due to their advanced application in many fields. Currently, most hydrogel …

In recent years, flexible hydrogels have shown potential applications as strain sensors in
artificial intelligence, such as medical monitoring, human motion detection, and intelligent …

Conducting polymer hydrogels have emerged as promising materials to fabricate highly
sensitive strain sensors. However, due to weak bindings between conducting polymer and …

Hydrogels are considered to be one of the promising candidates for wearable sensors due
to their ideal designability and excellent mechanical flexibility. Nevertheless, the preparation …

Conductive hydrogels hold great promises in wearable soft electronics. However, the weak
mechanical properties, low sensitivity and the absence of multifunctionalities (eg, self …