Conference Program - LOPE-C 2011
Conference Program - LOPE-C 2011
Conference Program - LOPE-C 2011
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BC-INVESTOR FORUM | WEDNESDAY-JUNE 29, <strong>2011</strong><br />
Track 1<br />
Products (03:15 pm - 06:00 pm) | LOCATION SPEKTRUM / LEVEL C2<br />
04:15 pm ISORG, the pionner company of organic photonics (Seed-financing)<br />
Mr Laurent Jamet,<br />
ISORG, Co-founder, Director Business Development, France<br />
Organic photodetectors and image sensors, highly innovative products for new applications and markets The organic electronics industry has been creating new materials<br />
for the organic photovoltaics products, attracted by high volume market opportunities. These materials can be used also for transforming light into information, and plastic<br />
and glass surfaces in sensors and smart surfaces able to interact with their environment . Organic printed electronics offer possibility for development of large area and high<br />
performances optical sensors and image sensors based on organic photodiodes printed on plastic and glass substrates. These new sensors offer unique properties (large<br />
sensing area, thin, light, flexible, transparent) for highly innovative product designs and concepts and technology usages. They offer also high performances (operation in<br />
visible and near infrared spectrum , or selective spectrum operation). ISORG, a new start-up of CEA-LITEN Grenoble (Nanomaterials Department) was created in 2010 to<br />
design and industrialize this new generation of printed electronics sensors. ISORG is uniquely positioned as industrial pioneer company offering a breakthrough technology<br />
transforming glass and plastic into smart surfaces able to sense and communicate. These new classes of sensors are based on a combination of new organic conductor<br />
and semiconductor materials used with large area, high volume deposition and patterning equipments. This technology offers real product design integration (3D<br />
integration) through large area, flexible and thin optical sensors on plastic substrates. The potential applications are many, including industrial (spectroscopy, process<br />
control, form and shape recognition), environmental monitoring (fluid and gas), consumer electronics (scanner, man machine interface) and displays, smart lighting and<br />
building, medical (digital imaging), toys, games and interactive printed media. These sensors can be combined with other printed electronics technologies such printed<br />
LED, electroluminescence, batteries, for innovative product concepts.<br />
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