The latest technological advances in new materials and devices enabled wearable systems to be created by utilizing textile solutions. These solutions require electro-conductive yarns as a basic component. Although the production of electro-conductive yarn is widely reported, research is still necessary to characterize them to advance their electro-conductive and mechanical properties. Hence, we served this need and characterized copper-coated para-aramid yarns produced by an in-house developed electroless deposition method. In this paper we present our investigation on the yarn's copper layer characteristics after deposition. Furthermore, we looked, in depth, at the yarn's electro-conductive properties before and after washing as well as th...
Recently, electrically driven conducting polymer (CP) coated yarns have shown great promise to devel...
The emergence of intelligent textiles in recent years has highlighted the importance of e-textiles (...
The implementation of electronic textiles which are capable of being applied as electrodes, sensors ...
The latest technological advances in new materials and devices enabled wearable systems to be create...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
Electro-conductive textiles are increasingly demanded in our today's technology-driven world as they...
Over the last decade extensive research has been on the way to provide textile structures with elect...
This work aims to manufacture the conductive fabric through the copper metal coating approach and to...
This study aims to manufacture and characterize various types of conductive cotton fabrics through t...
Electrically conductive smart textiles are a very interesting area that could be important for the d...
The electroless copper plating of textiles, which have been previously printed with a catalyst, is a...
Electronic textiles are an early developing hybrid system and require new standards of reliability a...
Smart textiles have attracted huge attention due to their potential applications for ease of life. R...
This paper presents a technology for applying copper and silver films to cotton fabrics by combining...
Smart textiles have attracted huge attention due to their potential applications for ease of life. R...
Recently, electrically driven conducting polymer (CP) coated yarns have shown great promise to devel...
The emergence of intelligent textiles in recent years has highlighted the importance of e-textiles (...
The implementation of electronic textiles which are capable of being applied as electrodes, sensors ...
The latest technological advances in new materials and devices enabled wearable systems to be create...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
Electro-conductive textiles are increasingly demanded in our today's technology-driven world as they...
Over the last decade extensive research has been on the way to provide textile structures with elect...
This work aims to manufacture the conductive fabric through the copper metal coating approach and to...
This study aims to manufacture and characterize various types of conductive cotton fabrics through t...
Electrically conductive smart textiles are a very interesting area that could be important for the d...
The electroless copper plating of textiles, which have been previously printed with a catalyst, is a...
Electronic textiles are an early developing hybrid system and require new standards of reliability a...
Smart textiles have attracted huge attention due to their potential applications for ease of life. R...
This paper presents a technology for applying copper and silver films to cotton fabrics by combining...
Smart textiles have attracted huge attention due to their potential applications for ease of life. R...
Recently, electrically driven conducting polymer (CP) coated yarns have shown great promise to devel...
The emergence of intelligent textiles in recent years has highlighted the importance of e-textiles (...
The implementation of electronic textiles which are capable of being applied as electrodes, sensors ...