EU project to take flexible OLEDs from lab to fab

EU project to take flexible OLEDs from lab to fab

Eindhoven, January 30, 2013 – A newly launched, €11.2-million European project aims to help bring flexible OLEDs to market within six years. The Flex-o-Fab project will create a pilot-scale manufacturing chain for flexible OLEDs, and use it to develop reliable fabrication / production processes. Funded through the EU’s 7th Framework Programme, the project will strengthen Europe’s leading position in the lighting industry by making flexible OLEDs a commercial reality.

Organic light-emitting diodes (OLEDs) are a revolutionary new light source. Emitting light efficiently over a large area and in a wide range of attractive colors, they open up a world of new lighting possibilities. The first OLED products – rigid glass tiles– are already on the market. However, OLEDs also offer the exciting possibility of being produced on plastic films / foils to create flexible light sources. Flexible OLEDs would be more robust and could be produced at even lower cost than glass-based OLEDs. Moreover, they could be embedded into all kinds of everyday objects.

Flexible OLEDs have been successfully demonstrated on the laboratory scale by many groups. Now the Flex-o-Fab project aims to take flexible OLEDs from lab to fab by developing reliable processes for manufacturing OLEDs on plastic foils. To do this, the project will set up a modular yet integrated pilot production line and associated manufacturing chain.

Flex-o-Fab will draw on technologies and expertise already used to produce glass-based OLEDs and flexible displays. It will look to migrate existing sheet-to-sheet processes to roll-to-roll (R2R) production to further reduce costs and enable high-volume production. Where manufacturing processes don't already exist, the project will develop new solutions that are compatible with R2R production.

“This is an industry-led project that brings together companies and institutes with strong backgrounds in organic electronics from across Europe. They are all leaders in their respective fields whose knowledge and expertise complements each other perfectly – and we are keen to hear from other potential partners who can add to the mix,” said Project Manager Flora Li of Holst Centre/TNO.

One of the key challenges in moving from glass-based to flexible devices is ensuring the sensitive OLED materials are well protected from the environment. Here the project will use a multilayer barrier technology developed by Holst Centre that has been shown to outperform all other available barriers, scaling it up for R2R pilot production (by Roth & Rau and Holst Centre).

A number of novel anode technologies will also be developed (by Epigem, EPFL, SPGPrints, TUT, Orbotech and Holst Centre). These need to be highly transparent with low resistivity, reliable, robust and scalable for R2R production on foil substrates. Other challenges include developing suitable and possibly functionalized polymer foils (by DTF) for R2R flexible OLED production; robust inspection and quality control technologies (by Orbotech) for high-yield manufacturing; reliable handling methods for processing on polymer foil substrates (by Henkel, Holst Centre, CSEM and Philips) and high-performance flexible OLED stack on foil (by Philips).

Flex-o-Fab aims to have a proof-of-concept pilot line operational by September 2015. Although the project focuses on OLED lighting, its results could also be applied to other emerging flexible electronics applications, such as organic photovoltaic (OPV) solar cells, flexible displays and smart food packaging. To further speed up industrialization, the project aims to develop a universal substrate foil that could be used for both OLED and OPV applications, bringing new market opportunities for commercial partners.

Flex-o-Fab consortium members (as of January 30, 2013)

• Holst Centre / TNO (Project coordinator) [Netherlands]

• Philips Research [Netherlands, Germany]

• Philips Technologie GmbH [Germany]

• Orbotech Ltd. [Israel]

• Institute of Microengineering, École Polytechnique Fédérale de Lausanne (EPFL) [Switzerland]

• Henkel Electronics Materials N.V. [Belgium]

• SPGPrints [Netherlands]

• Epigem Ltd. [UK]

• Tampere University of Technology (TUT) [Finland]

• Roth & Rau Microsystems GmbH [Germany]

• Dupont Teijin Films UK Ltd (DTF) [UK]

• CSEM / Basel [Switzerland]

Funded through the European Union’s Seventh Framework Programme (FP7), the Flex-o-Fab project will run for 36 months beginning October 1, 2012. More information and latest developments will be available at http://www.flexofab.eu/ (currently under construction).

About TNO/Holst Centre

With more than 4000 professionals, TNO is the largest Dutch organization for applied research. TNO’s activities within Flex-o-Fab are being conducted by its research division at Holst Centre.

Holst Centre is an independent open-innovation R&D center, set up in 2005 by Imec (Flanders, Belgium) and TNO (The Netherlands). Holst Centre develops generic technologies for Wireless Autonomous Sensor Technologies and Flexible Electronics. A key feature of Holst Centre is its partnership model with industry and academia around shared roadmap and programs. It is this kind of cross-fertilization that enables Holst Centre to tune its scientific strategy to industrial needs. Holst Centre was setup with support from the Dutch Ministry of Economic Affairs and the Government of Flanders. It is named after Gilles Holst, a Dutch pioneer in Research and Development and first director of Philips Research. Located on High Tech Campus Eindhoven, Holst Centre benefits from the state-of-the-art on-site facilities. Holst Centre has close to 200 employees from 28 nationalities and a commitment from over 45 industrial partners. For more information, go to www.holstcentre.com. Press Contact

Flora Li

Project coordinator

info@flexofab.eu

+31 (0) 40 4020658