Add to ORKGMicro-sized lines were inkjet printed on glass fibre fabrics using different droplet spacing. A conductive ink containing silver nanoparticles was used in this study. Glass fibre fabrics were differently pre-treated to avoid spontaneous spreading of the ink dispersion. The sample topography was examined using scanning electron, optical and confocal microscopy with a chromatic sensor. Printability conditions were discussed based on the results of topographic characterization and wettability measurements. Key words: Glass fibre fabric, inkjet printing, conductive lines
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
In this study, we develop a simple and low-cost surface wettability patterning based on soft lithogr...
This research study focuses on the application of conductive ink by the screen printing technique to...
Micro-sized lines were inkjet printed on glass fibre fabrics using different droplet spacing. A cond...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
AbstractThis paper investigates the effect of surface wettability on the cross-sectional profiles of...
In this study, an effective method to fabricate well-defined conductive lines with high resolution h...
Inkjet printing has been seen promising in printing conductive inks on variety of substrates other t...
Silver nanoparticle-based conductive tracks were inkjet printed using a piezoelectric drop-on-demand...
Silver nanoparticle-based conductive tracks were inkjet printed using a piezoelectric drop-on-demand...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
Silver nanoparticle inks are increasingly applied for the manufacture of inkjet-printed electrically...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
In this study, we develop a simple and low-cost surface wettability patterning based on soft lithogr...
This research study focuses on the application of conductive ink by the screen printing technique to...
Micro-sized lines were inkjet printed on glass fibre fabrics using different droplet spacing. A cond...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
Inkjet printing of functional inks on textiles to embed passive electronics devices and sensors is a...
AbstractThis paper investigates the effect of surface wettability on the cross-sectional profiles of...
In this study, an effective method to fabricate well-defined conductive lines with high resolution h...
Inkjet printing has been seen promising in printing conductive inks on variety of substrates other t...
Silver nanoparticle-based conductive tracks were inkjet printed using a piezoelectric drop-on-demand...
Silver nanoparticle-based conductive tracks were inkjet printed using a piezoelectric drop-on-demand...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
Silver nanoparticle inks are increasingly applied for the manufacture of inkjet-printed electrically...
In this study, we investigated geometrical characteristics of the inkjet-printed lines with non-zero...
In this study, we develop a simple and low-cost surface wettability patterning based on soft lithogr...
This research study focuses on the application of conductive ink by the screen printing technique to...