Challengeable funding chances for organic electronics
OE Index will present funding projects here from various hosts which aim to develop organic electronic projects. Peers in this field could apply for the funding to solve challengeable issues for the advancement of organic electronic technologies and industries.
Worldwide big projects for organic electronics
1. DOE Solid-State Lighting Portfolio (USA)
The U.S. Department of Energy and its partners are working to accelerate advances in solid-state lighting — a pivotal emerging technology that promises to fundamentally alter lighting in the future.
DOE has developed a comprehensive national strategy that encompasses Basic Energy Science, Core Technology Research, Product Development, Commercialization Support, Standards Development, and an SSL Partnership.
OLED is one part of this portfolio, which will have great applications in the aspect of displays, signage and general illuminations in near future. Connect
2. OLLA Project (EU)
OLLA Project is an integrated project of Europe Union, whose mission is to accomplish everything necessary for the next generation light source for the 21st century: Organic Light Emitting Diodes. The project gathers and focuses the European expertise in OLED lighting to jointly realize a high brightness, high efficiency flat light source component for use in ICT and next generation lighting applications. In its final milestone, the project presents the basic technology for a white OLED (Organic Light-Emitting Diode) light source, with an efficacy of 50.7 lumens per watt at an initial brightness of 1.000 cd/m² based on the Novaled PIN OLED technology. Connect
3. Fast2Light (EU)
Fast2light is another collaborative project from Europe Union, which aims to develop novel, cost-effective, high-throughput, roll-to-roll, large area deposition processes for fabricating light-emitting polymer-OLED foils for intelligent lighting applications. The project, partially funded under European Union’s 7th Framework program as part of the ICT priority, will address all layers that are part of a lighting foil. The scope of the project comprises all of the layers that are part of an OLED lighting foil. It will start with the substrate choice, and introduce high-throughput deposition and patterning methods for all of the materials necessary to fabricate the final lighting foil. Its consortium consists of 14 partners from 8 countries, including 3 research institutes, 2 universities, 3 SMEs and 6 large enterprises. Connect
4. CombOLED project
CombOLED is a European funded research and development project within the 7th Framework Programme. The goal of CombOLED is to combine new device structures, advantageous manufacturing approaches and less complex materials with the goal to achieve cost effective OLED lighting solutions. The 7 partners are located in 4 countries all over Europe (France, Spain, Italy and Germany) and have been selected based on their high reputation in their own field. The CombOLED project has a total budget of 7 M€, which started on January 1st, 2008 and will run for 36 months. Connect
5. OLED100.eu
OLED100.eu is a European funded project with its five objectives including High power efficacy (100 lm/W), Long lifetime (100.000 h), large area (100x100 cm2), low-cost (100 Euro/m2), and standard system integration and application within 36 months from September 2008. It has assembled outstanding experts from leading industry and academic groups like Philips and Osram. Connect
6. Large area OLED display project
This project is initiated by The New Energy and Industrial Technology Development Organization in Japan. The goal is to develop the relevant technologies for 40 inch displays before 2020. The involved entities include Sony, Sharp, and other large companies which have great capabilities on organic electronic technology. Connect
7. HYPOLED Project
HYPOLED is a collaborative European project (STREP - “Small and medium-scale focused research project”), which commenced in Q1 2008 and has been funded as part of the first round of FP7. The project partners include MicroEmissive Displays, Edinburgh, United Kingdom; Fraunhofer Institut Photonische Mikrosysteme, Dresden, Germany; Fraunhofer Institute for Applied Optics and Precision Engineering, Jena, Germany; Mobintech A/S, Farum, Denmark; Universität zu Köln, Köln, Germany; and University of Edinburgh, Edinburgh, United Kingdom.
The main objective of the project is the development and integration of a next generation high performance OLED-microdisplay platform for multimedia applications. The platform can be used with microdisplays based on both polymer and small-molecule OLEDs. The OLED-microdisplay platform is capable of deployment in a number of applications including personal display systems and mobile projection. Within the project this platform will be integrated into two types of optics and addressed by a wireless data interface capable of handling multimedia content delivered via DVB-T, DVB-H and WiFi/WLAN. Two systems are being developed - a near-to-eye virtual display system with a 24 degree field of view and a micro-projection system capable of generating a projected image of up to 15cm in size.Connect
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