The electroless copper plating of textiles, which have been previously printed with a catalyst, is a promising method to selectively metallise them to produce high-reliability e-textiles, sensors and wearable electronics with wide-ranging applications in high-value sectors such as healthcare, sport, and the military. In this study, polyester textiles were ink-jet printed using differing numbers of printing cycles and printing directions with a functionalised copper–silver nanoparticle catalyst, followed by electroless copper plating. The catalyst was characterised using Transmission Electron Microscopy (TEM) and Ultraviolet/Visible (UV/Vis) spectroscopy. The electroless copper coatings were characterised by copper mass gain, visual appearan...
Abstract Nano technology is an upcoming branch where lot of research work is being done with the int...
International audienceThis paper presents our first results on printed copper connections on flexibl...
Electro-conductive textiles are increasingly demanded in our today's technology-driven world as they...
In this work, surface metallization of cotton fabrics was performed by electroless plating using a s...
This work aims to manufacture the conductive fabric through the copper metal coating approach and to...
In this study, we developed multifunctional and durable textile sensors. The fabrics were coated wit...
A simple and low-cost process for fabricating conductive copper patterns on flexible polyimide subst...
A reliable and low-cost method to synthesize high-adhesion and low-resistivity copper patterns on fl...
The latest technological advances in new materials and devices enabled wearable systems to be create...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
International audienceA new efficient approach for selective metallization of flexible substrates su...
In the printed electronics industry, conductive copper colloid inks have drawn a great deal of inter...
This study aims to manufacture and characterize various types of conductive cotton fabrics through t...
Printed electronics processes have the potential to make electronics manufacturing more flexible by p...
Abstract Nano technology is an upcoming branch where lot of research work is being done with the int...
International audienceThis paper presents our first results on printed copper connections on flexibl...
Electro-conductive textiles are increasingly demanded in our today's technology-driven world as they...
In this work, surface metallization of cotton fabrics was performed by electroless plating using a s...
This work aims to manufacture the conductive fabric through the copper metal coating approach and to...
In this study, we developed multifunctional and durable textile sensors. The fabrics were coated wit...
A simple and low-cost process for fabricating conductive copper patterns on flexible polyimide subst...
A reliable and low-cost method to synthesize high-adhesion and low-resistivity copper patterns on fl...
The latest technological advances in new materials and devices enabled wearable systems to be create...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
International audienceA new efficient approach for selective metallization of flexible substrates su...
In the printed electronics industry, conductive copper colloid inks have drawn a great deal of inter...
This study aims to manufacture and characterize various types of conductive cotton fabrics through t...
Printed electronics processes have the potential to make electronics manufacturing more flexible by p...
Abstract Nano technology is an upcoming branch where lot of research work is being done with the int...
International audienceThis paper presents our first results on printed copper connections on flexibl...
Electro-conductive textiles are increasingly demanded in our today's technology-driven world as they...