The development of wearable electronics, point-of-care testing, and soft robotics requires
strain sensors that are highly sensitive, stretchable, capable of adhering conformably to …

Electronic skin is driving the next generation of cutting-edge wearable electronic products
due to its good wearability and high accuracy of information acquisition. However, it remains …

The ability of a flexible strain sensor to directly adapt the complicated human biological
motion or combined gestures and remotely control the artificial intelligence robotics could …

The flourishing development in flexible electronics has provoked intensive research in
flexible strain sensors to realize accurate perception acquisition under different external …

As a new two-dimensional material similar to graphene, MXene has attracted extensive
attention in the field of electrochemical materials such as supercapacitors because of its …

Conductive hydrogels are promising in the flexible wearable electronic applications due to
their unique feature of intrinsic stretchability, reversible flexibility, and high electrical …

Conductive hydrogels based on two-dimensional (2D) nanomaterials, MXene, have
emerged as promising materials for flexible wearable sensors. In these applications, the …

Double network (DN) conductive hydrogels have become a hotspot for wearable sensors.
However, building DN hydrogel-based strain sensors with excellent mechanical strength …

Flexible sensors have attracted extensive attention due to their good wearable performance
and high accuracy in acquiring external information. Herein, a highly stretchable, good …

Conductive hydrogels as flexible electronic devices, not only have unique attractions but
also meet the basic need of mechanical flexibility and intelligent sensing. How to endow …