Add to ORKGTouch-sensitive electrical arrays are the primary user interface for modern consumer electronics. Most contemporary touch sensors, including known iterations of textile-based touch sensors, function by detecting capacitive changes within a circuit resulting from direct skin contact. However, this method of operation fails when the user’s skin or the surface of the touch sensor is dirty, oily or wet, preventing practical use of textile-based touch sensors in real-world scenarios. Here, an electrically touch-responsive woven textile is described, which is composed of fluoropolymer-wrapped conductive threads. The fluoropolymer wrapping prevents contaminant buildup on the textile surface and also electrically insulates the conductive thread cor...
Flexibility plays a vital role in wearable electronics. Repeated bending often leads to the dramatic...
Many modern user interfaces are based on touch, and such sensors are widely used in displays, Intern...
In recent years, the importance of flexible and textile electronics in the field of wearable devices...
Touch-sensitive electrical arrays are the primary user interface for modern consumer electronics. Mo...
Electrically conductive textiles have many potential applications, such as sensors, static charge di...
With the recent convergence of electronics and textile technology, various kinds of smart wearables ...
Wearable sensor technologies, especially continuous monitoring of various human health conditions, a...
An ambition exists in literature for electronic textiles (e-textiles) to resemble traditional textil...
[EN] There is an interest in new wearable solutions that can be directly worn on the curved human bo...
In this paper we explore the wash-ability of conductive materials commonly use in creating traces a...
Multifunctional electronic textiles (E-textiles) with embedded electric circuits hold great applicat...
Textile-based sensors can perceive and respond to environmental stimuli in daily life, and hence are...
In smart textiles, electrical conductivity is often required for several functions, especially conta...
The future of electronics is moving toward wearable devices and therefore requires a shift away from...
The ultimate goal for wearable technology is a seamless integration of sensors and electronics in e...
Flexibility plays a vital role in wearable electronics. Repeated bending often leads to the dramatic...
Many modern user interfaces are based on touch, and such sensors are widely used in displays, Intern...
In recent years, the importance of flexible and textile electronics in the field of wearable devices...
Touch-sensitive electrical arrays are the primary user interface for modern consumer electronics. Mo...
Electrically conductive textiles have many potential applications, such as sensors, static charge di...
With the recent convergence of electronics and textile technology, various kinds of smart wearables ...
Wearable sensor technologies, especially continuous monitoring of various human health conditions, a...
An ambition exists in literature for electronic textiles (e-textiles) to resemble traditional textil...
[EN] There is an interest in new wearable solutions that can be directly worn on the curved human bo...
In this paper we explore the wash-ability of conductive materials commonly use in creating traces a...
Multifunctional electronic textiles (E-textiles) with embedded electric circuits hold great applicat...
Textile-based sensors can perceive and respond to environmental stimuli in daily life, and hence are...
In smart textiles, electrical conductivity is often required for several functions, especially conta...
The future of electronics is moving toward wearable devices and therefore requires a shift away from...
The ultimate goal for wearable technology is a seamless integration of sensors and electronics in e...
Flexibility plays a vital role in wearable electronics. Repeated bending often leads to the dramatic...
Many modern user interfaces are based on touch, and such sensors are widely used in displays, Intern...
In recent years, the importance of flexible and textile electronics in the field of wearable devices...