NEW MATERIALS AND PROCESSING IN ORGANIC ELECTRONICS (MADRAS)
Provider: Evropská unie
Programme: H2020 - Kolaborativní projekty
Implementation period: 01.04.20 - 30.06.23
Workplace:
Fakulta chemicko-technologická - Katedra polygrafie a fotofyziky
Investigator: Syrový TomášTeam member: Zajac Vít | Odvárková Jitka | Wimmer Tomáš | Pižlová Ilona | Vlčková Jarmila | Drašar Čestmír
Description:
The project addresses the need for implementing new materials and processing to manufacture a new generation of smart devices enabled by Organic and Large Area Electronics. MADRAS aims to demonstrate the materials-driven improvement of electrical performance, processability, stability and operational lifetime of OLAE devices and their seamless integration into products in a scalable competitive manufacturing process which is In Mold Hybrid Printed Electronics The main objective of MADRAS is thus to create new products through In Mold Hybrid Printed Electronics (IMHPE) fabrication process, seamlessly integrating materials which enhance products functionalities. The novelty relies in developing new OLAE materials to be promptly used via IMHPE processing to fabricate new products. The novel materials in this project are: 1. A new alternative to PEDOT ink from COC to be used as a transparent electrode; a new n-type semiconductor ink based on tungsten oxide from Gene?s Ink; and translucent and conductive paper (nanocellulose/cellulose substrate) as printed electronics substrate.
The project addresses the need for implementing new materials and processing to manufacture a new generation of smart devices enabled by Organic and Large Area Electronics. MADRAS aims to demonstrate the materials-driven improvement of electrical performance, processability, stability and operational lifetime of OLAE devices and their seamless integration into products in a scalable competitive manufacturing process which is In Mold Hybrid Printed Electronics The main objective of MADRAS is thus to create new products through In Mold Hybrid Printed Electronics (IMHPE) fabrication process, seamlessly integrating materials which enhance products functionalities. The novelty relies in developing new OLAE materials to be promptly used via IMHPE processing to fabricate new products. The novel materials in this project are: 1. A new alternative to PEDOT ink from COC to be used as a transparent electrode; a new n-type semiconductor ink based on tungsten oxide from Gene?s Ink; and translucent and conductive paper (nanocellulose/cellulose substrate) as printed electronics substrate.
