Multifunctional selectivity and mechanical properties are always a focus of attention in the
field of flexible sensors. In particular, the construction of biomimetic architecture for sensing …

Stretchable sensors are essential for flexible electronics, which can be made with polymer
elastomers as the matrix. The main challenge in producing practical devices is to obtain …

Flexible wearable electronics have received tremendous attention for their potential in
electronic skins, wearable healthcare monitoring, and human-machine interfacing. However …

Flexible and multifunctional strain sensors with superior properties including high sensitivity,
low detection limits, and a wide sensing range are always in high demand for wearable …

Skin-like electronics that can provide comprehensively tactile sensing is required for
applications such as soft robotics, health monitoring, medical treatment, and human …

Electronic skin has attracted a lot of interest in recent years due to its ability to mimic human
skin and also its excellent conformability. Even though there are reports on electronic skin …

A sensor with matchable configuration and features is one of the essential components of
flexible and wearable electronic systems. The textile is considered as an ideal platform that …

The development of electronic skin is the key to the realization of artificial intelligence that
immediate contacts with humans, as well as biomedical applications. To mimic the tactile …

MXene-decorated textile composites have attracted tremendous attention, due to their
possible applications in wearable sensing electronics. However, the easy oxidation, low …

The development of wearable strain sensors with simultaneous large stretchability (strain>
55%) and high sensitivity (gauge factor> 100) remains a grand challenge to this day …