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Screen Printing Conductive Inks on Textiles: Impact of Plasma Treatment †
Julia Guérineau
, Jollan Ton
,
Mariia Zhuldybina
École de technologie supérieure
Systems Engineering Department
NUMÉRIX - Research laboratory on organizational engineering in a digital enterprise context
Electrical Engineering Department
LACIME - Communications and Microelectronics Integration Laboratory
École de technologie supérieure
Research output
:
Contribution to journal
›
Journal Article
›
peer-review
2
Citations (Scopus)
Overview
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Keyphrases
Screen Printing
100%
Textile
100%
Conductive Ink
100%
Plasma Treatment
100%
Electrical Properties
33%
Screen-printed
33%
Two-sample
16%
Customization
16%
Low Pressure
16%
Printability
16%
Internet of Things
16%
Comparative Analysis
16%
Post-processing Techniques
16%
Cost-effectiveness
16%
Wearable Devices
16%
Printed Electronics
16%
Remaining Challenges
16%
Breathability
16%
Polyester Textile
16%
Electronic Integration
16%
Textile-based
16%
Substrate Treatment
16%
Nitrogen Gas
16%
Textile Substrates
16%
E-textiles
16%
Polyethylene Terephthalate
16%
Oxford
16%
Sheet Resistance
16%
Oxygen Plasma Treatment
16%
Substrate Preparation
16%
Ink Transfer
16%
Printed Silver
16%
Transfer Properties
16%
Cleaning Treatment
16%
Washability
16%
Textile Samples
16%
Engineering
Plasma Treatment
100%
Conductive Ink
100%
Wearable Sensor
14%
Customisation
14%
Adaptability
14%
Internet-Of-Things
14%
Processing Technique
14%
Comparative Analysis
14%
Printed Electronics
14%
Technical Challenge
14%
Textile Substrate
14%
Sheet Resistance
14%
e-textiles
14%
Chemical Engineering
Polyethylene Terephthalate
100%
Polyester
100%
Sheet Resistance
100%
Material Science
Silver
100%
Polyethylene Terephthalate
50%
Polyester
50%
Wearable Sensor
50%