Flexible, stretchable electronics have drawn a lot of attention because they can be
mechanically compatible with a variety of objects, unlike traditional rigid electronics. The …

The market for wearable electronic devices is experiencing significant growth and
increasing potential for the future. Researchers worldwide are actively working to improve …

Flexible wearable textiles have attracted increasing attention, due to their potential
applications in human motion detection, electric heating and humidity monitoring. However …

Liquid metals with metallic conductivity and infinitely deformable properties have
tremendous potential in the field of conformal electronics. However, most processing …

The emergence of flexible sensors addresses the limitations of traditional detection
equipment, such as large size, high cost, and inconvenient portability. These sensors have …

This work presents a strain sensor which is based on high ductility liquid metal coated on
traditional commercial lastex yarns with a unique spiral wound structure. The prepared …

Wearable devices attract great attention in intelligent medicine, electronic skin, artificial
intelligence robots, and so on. However, boundedness of traditional sensors based on rigid …

Wearable sensors open unprecedented opportunities for long-term health monitoring and
human–machine interaction. Electrospinning is considered to be an ideal technology to …

The pressing issues of the energy crisis and rapid electronics development have sparked a
growing interest in the production of highly thermally conductive polymer composites. Due to …

Over recent years, thermoplastic polyurethane (TPU) has been widely used as a substrate
material for flexible strain sensors due to its remarkable mechanical flexibility and the ease …