Textiles are venturing further into the health sector with a new development. The Swiss Federal Laboratories for Materials Science and Technology, also known as Empa, in conjunction with the research ...

Green-engineered MoS2 nanosheets were coated onto nonwoven fabric using a citric-acid-assisted ethanol-water process to ...

A soft, flexible sensor system created with electrically conductive yarns could help map problematic pressure points in the socket of an amputee's prosthetic limb, researchers report in a new study. A ...

Finger Bend is a unique DIY Arduino powered textile flex sensor, created as part of the Swatch Exchange, enabling you to trigger actions by simply bending your finger. Created by the team at Willpower ...

[Admar] is a software developer who was introduced to e-textiles in 2011. The bug firmly took hold, and these days he gives e-textile workshops at Eindhoven University of Technology. Here, students ...

So often, we use control devices for electronics that involve our fingers directly grasping, touching, or moving another object or surface. It’s less common for us to use interfaces that detect the ...

ETH Zurich has created a yarn whose capacitance varies significantly with the movement of the textile it is woven into. The researchers “integrated it into a pair of athletic leggings”, according to ...

For years, roboticists and prosthetists have dreamed of a day when mechanical limbs could restore both function and sense of touch for a person missing a limb. However, in developing a sensor that ...

A fabric coating with thin, lightweight and flexible pressure sensors that can be embedded into shoes and other functional garments, sensors that can measure everything from the light touch of a ...

A team of engineers at the University of Delaware is developing next-generation smart textiles by creating flexible carbon nanotube composite coatings on a wide range of fibers, including cotton, ...