Due to their potential applications in physiological monitoring, diagnosis, human prosthetics,
haptic perception, and human–machine interaction, flexible tactile sensors have attracted …

The rapid development of consumer electronics, artificial intelligence, and clinical medicine
generates an increasing demand for flexible pressure sensors, whose performance …

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

In the past decade, with the rapid development of wearable electronics, medical health
monitoring, the Internet of Things, and flexible intelligent robots, flexible pressure sensors …

Carbon-based aerogels are difficult to accomplish satisfactory mechanical strength and
fatigue resistance due to the brittleness of framework, limiting their application in …

Since the successful preparation of few‐layer transition metal carbides from three‐
dimensional MAX phases in 2011, MXenes (known as a family of layered transition metal …

MXene is a revolutionary two-dimensional material that has a distinct layer structure and the
chemical composition of transition metal carbides. It has special physicochemical …

Piezoresistive sensors represent a specialized category of sensors that transform alterations
in the resistance of materials caused by external pressure into electrical signals. They have …

MXene films possess excellent controllable electrical conductivity, mechanical and chemical
characteristics, showing great potential in the construction of new‐generation flexible …

This study reports the design, fabrication, and application of strain and tactile sensors
molded with Carbon Black (CB)/Thermoplastic Polyurethane (TPU) composite ink into …