Smart tactile sensing materials have excellent development prospects, including wearable
health‐monitoring equipment and energy collection. Hydrogels have received extensive …

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 …

Bioinspired hydrogels have promising prospects in applications such as wearable devices,
human health monitoring equipment, and soft robots due to their multifunctional sensing …

The ever‐growing overlap between stretchable electronic devices and wearable healthcare
applications is igniting the discovery of novel biocompatible and skin‐like materials for …

In this study, a binary networked conductive hydrogel is prepared using acrylamide and
polyvinyl alcohol. Based on the obtained hydrogel, an ultrastretchable pressure sensor with …

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 …

With increasing interest and demand for wearable sensor devices, fabricating a flexible
hydrogel sensor combining high toughness and adhesiveness is necessary but remains …

In recent years, conductive hydrogels have generated tremendous attention in biomedicals
and bioelectronics fields due to their excellent physiochemical properties. In this study, a …

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

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