Organic Electronics is entering the market with its initial product offerings. The
second version of the Organic Electronics Association (OE-A) roadmap provides a
forecast for the market entry of printed electronics through 2015 and beyond. Seven
applications ranging from sensors over radio frequency tags to photovoltaics are
covered in this publication. Additionally, manufacturing technologies and materials —
along with their corresponding technical barriers (red brick walls) — are also
identified and assessed.

Organic electronics is a platform technology that enables multiple applications that vary widely in terms of product specifications. Since the technology is still in its early stage — and is in the transition from
lab-scale and prototype activities to production and commercialization — it is important to
develop a common opinion about what kind of products, processes and materials will be
available and when. The OE-A roadmap attempts to do just that.
The OE-A roadmap is a key activity of the Organic Electronics Association – the
international key industry association for organic and printed electronics - and represents the
common perspectives of the OE-A members.
“This second edition of the roadmap the OE-A helps the industry, government agencies and
scientists plan and align their R&D activities and product plans. We will frequently update
and expand the roadmap with the international experts along the value chain,” says
Wolfgang Mildner, chairman of the OE-A.

Organic Electronics Overview
Organic electronics is based on the combination of new materials – organic and inorganicand cost-effective, large area production processes that open up new fields of application.
They are thin, light-weight, flexible and environmentally friendly. Organic electronics also
enable a wide range of electrical components that can be produced and directly integrated in
low cost reel-to-reel processes. Intelligent packaging, low cost RFID (radio-frequency
identification) transponders, rollable displays, flexible solar cells, disposable diagnostic
devices or games, and printed batteries are just a few examples of promising fields of
application for organic and printed electronics.

A number of key applications have been chosen to demonstrate the needs from the
application side, identify major challenges, cross checked with the possibilities of the
technology and to forecast a time frame for the market entry in large volumes. Key results
are summarized in Figure 1 that illustrates the expected market entry in large volumes for
seven application fields.
First organic electronics products have already reached the market, including passive ID
cards, flexible lithium polymer batteries and sensor devices. Additional products, such as
displays with organic TFT backplanes, printed radio frequency tags, organic photovoltaic
cells and printed memories, are likely to reach the market later this year or early in 2008 .
Within the next several years, it is expected that mass markets will be reached and that all
the above mentioned applications will be available in large volumes.
There are many approaches on the material and process side. The resulting questions –
organic or inorganic, printed or not – are still under discussion. But further improvement of
material, patterning processes and device design are necessary in order to meet the
demands of future product generations. In Figure 2, a forecast for the charge mobility of
semiconductor materials for devices that are manufactured in high throughput processes is
given. New material classes and optimized materials are necessary.

For questions or further inquiries please see the new OE-A brochure and do not hesitate to contact
Dr. Klaus Hecker (Tel.: +49-69-6603-1336, klaus.hecker@vdma.org ).