MXenes have received increasing attention due to their two-dimensional layered structure,
high conductivity, hydrophilicity, and large specific surface area. Because of these distinctive …

Wearable strain sensors with the ability of detecting physiological activities play an important
role in personalized healthcare. Electrospun fibers have become a popular building block …

Inspired by the human skin, electronic skins (e‐skins) composed of various flexible sensors,
such as strain sensor, pressure sensor, shear force sensor, temperature sensor, and humility …

Flexible strain sensors have significant progress in the fields of human–computer
interaction, medical monitoring, and handwriting recognition, but they also face many …

In recently years, high-performance wearable strain sensors have attracted great attention in
academic and industrial. Herein, a conductive polymer composite of electrospun …

Smart electronic skins (e-skins) have garnered extensive attentions owing to their potentials
in health monitoring, human-machine interactions, and soft robotics. Herein, stretchable and …

Multiresponsive flexile sensors with strain, temperature, humidity, and other sensing abilities
serving as real electronic skin (e‐skin) have manifested great application potential in flexible …

In this work, Ti 3 C 2 MXene supported by cotton fabric was used as electrode layer to
construct a novel triboelectric nanogenerator (TENG) as self-powered flexible sensors. The …

High-sensitivity strain sensing elements with a wide strain range, fast response, high
stability, and small sensing areas are desirable for constructing strain sensor arrays with …

With the development of flexible electronic devices and the Internet of Things technology,
flexible strain sensors have shown enormous application potential. Working range and …