Highly stretchable and sensitive strain sensors are in great demand for human motion
monitoring. This work reports a strain sensor based on electrospun carbon nanofibers …

This paper introduces a novel technique for embedding aligned sheets of two millimeters
long, interconnected CNTs into the interlaminar region of composite structures. The potential …

Carbon nanotubes (CNTs) have a unique set of properties that may be useful in the
production of next generation structural health monitoring composites. This research …

Carbon nanotube yarns are micron-scale fibers comprised by tens of thousands of carbon
nanotubes in their cross section and exhibiting piezoresistive characteristics that can be …

Carbon nanotube fibers or yarns (CNTYs) are lightweight, stiff, strong, electrically, and
thermally conductive fiber-like materials that exhibit a piezoresistive response and could be …

Purpose The purpose of this study is to present a highly stretchable and flexible strain
sensor with simple and low cost of fabrication process and excellent dynamic characteristics …

Carbon nanotube (CNT) yarns are micron-size fibers that contain thousands of intertwined
CNTs in their cross sections and exhibit piezoresistance characteristics that can be tapped …

This work presents the design, fabrication, and measurement of a piezoresistive device with
a carbon black (CB) particle network in a highly flexible silicone rubber for large deformation …

Advances in nanotechnology have provided approaches for the fabrication of new
composite materials for sensing. Flexible sensors can make up for the shortcomings of …

Multiple applications of carbon nanotubes (CNTs) require their assembly into macroscopic
materials: films, sheets, and ribbons. Most of these macro-materials are flexible thin …