DECAF - Delivering Electronic Circuitry with Aligned layers by Foil stamping
Lead Research Organisation:
Queen Mary University of London
Department Name: Centre for Materials Research
Abstract
This proposal describes basic research directed toward the delivery of plastic electronic components, specifically transistors, to a flexible substrate in a roll-to-roll fashion. The work encompasses research into novel materials and processes to obtain multiple thin film layers which may then be transferred to prepatterned electrodes through foil stamping. In this manner, the semiconductor, dielectric and gate of a transistor may be located with automatic registration, obviating the need for resists and multiple printing steps, which are costly and wasteful. The method will enable the economic production of flexible circuitry with high throughput, reducing costs and offering novel, valuable features for printing industries. The project will focus on circuitry suitable for security features and will be exploited by De La Rue. The project aims to translate basic research into a process which will be suitable for subsequent scale up
People |
ORCID iD |
Natalie Stingelin (Principal Investigator) |
Publications
Baklar M
(2010)
Ink-jet printed p-type polymer electronics based on liquid-crystalline polymer semiconductors
in Journal of Materials Chemistry
Ballantyne A
(2010)
Understanding the Influence of Morphology on Poly(3-hexylselenothiophene):PCBM Solar Cells
in Macromolecules
Barard S
(2009)
Separate charge transport pathways determined by the time of flight method in bimodal polytriarylamine
in Journal of Applied Physics
Kumar A
(2009)
Efficient, Stable Bulk Charge Transport in Crystalline/Crystalline Semiconductorâ??Insulator Blends
in Advanced Materials
Sparrowe D
(2010)
Low-temperature printing of crystalline:crystalline polymer blend transistors
in Organic Electronics