Textile-based sensors in the form of a wearable computing device that can be attached to or
worn on the human body not only can transmit information but also can be used as a smart …

Sensing devices are key nodes for information detection, processing, and conversion and
are widely applied in different fields such as industrial production, environmental monitoring …

High-strength, flexible, and multifunctional characteristics are highly desirable for
electromagnetic interference (EMI) shielding materials in the field of electric devices. In this …

Abstract Recent advances in MXene (Ti3C2T x) fibers, prepared from electrically conductive
and mechanically strong MXene nanosheets, address the increasing demand of emerging …

Nanocomposite conductive fiber has been newly developed as a lightweight material with
high flexibility and strong weavability, which can meet the requirements of flexible wearable …

High‐performance MXene fibers are always of significant interest for flexible textile‐based
devices. However, achieving high mechanical property and electrical conductivity remains …

Abstract 2D transition-metal carbides, known as MXenes, are among the most promising
electromagnetic interference (EMI) shielding materials due to their outstanding metal-like …

The rapid development of artificial intelligent wearable devices has led to an increasing
need for seamless information exchange between humans, machines, and virtual spaces …

To endow transition metal carbide (MXene) fibers with satisfactory chemical resistances,
high electrical conductivity and enhanced ductility, multifunctional hollow core-shell fibers …

Smart fabrics have made remarkable progress in the field of wearable electronics because
of their unique structure, flexibility and breathability, which are highly desirable with …