Summary
Highly efficient organic electroluminescent devices (OLEDs) are a technology that promises to reduce significantly the electricity consumption. The estimated market for OLED lighting products is large ($8 billion) and European lighting manufacturers are ideally positioned to capture a large part of it.
Glass OLED products prepared by vacuum evaporation techniques have been demonstrated with good performances, yet the main bottle neck for larger market introduction is the high cost. At high production volumes the cost of OLED production is directly related to the efficiency of materials usage which is estimated to be 70 % for vacuum deposition and 90 % via solution processing.
Hence, roll-to-roll solution processed OLEDs, will lead to a significant price reduction due to more efficient organic material usage, lower capital investments and higher throughput. Additionally, these OLEDs will be produced directly on flexible substrates allowing for new light weight and space saving designs.
SOLEDLIGHT will develop hybrid and fully S2S and R2R solution processed multilayer OLEDs with power efficiencies > 100 lm/W and lifetimes > 15000 hours at 3,000 cd/m2.
This will be addressed by:
• New emitter and charge transport materials
• Methods to control multilayer stack formation.
• Interface and emitting layer morphology control.
• Implementing large-area roll-to-roll solution processing.
• Demonstration of flexible OLEDs integrated into a luminaire.
SOLEDLIGHT will scale up both the chemical synthesis of these material systems and the R2R coating technology to a pilot production line.
SOLEDLIGHT has assembled a consortium comprising a Osram (leading OLED manufacturer and integrator), Solvay (leading OLED materials manufacturer), TNO/Holst Centre (an excellence centre for organic devices with a state-of-the-art R2R line and leading universities in the field (Univ. Valencia, EPFL and Imperial College). The participation of Osram ensures a rapid transfer to future products.
Glass OLED products prepared by vacuum evaporation techniques have been demonstrated with good performances, yet the main bottle neck for larger market introduction is the high cost. At high production volumes the cost of OLED production is directly related to the efficiency of materials usage which is estimated to be 70 % for vacuum deposition and 90 % via solution processing.
Hence, roll-to-roll solution processed OLEDs, will lead to a significant price reduction due to more efficient organic material usage, lower capital investments and higher throughput. Additionally, these OLEDs will be produced directly on flexible substrates allowing for new light weight and space saving designs.
SOLEDLIGHT will develop hybrid and fully S2S and R2R solution processed multilayer OLEDs with power efficiencies > 100 lm/W and lifetimes > 15000 hours at 3,000 cd/m2.
This will be addressed by:
• New emitter and charge transport materials
• Methods to control multilayer stack formation.
• Interface and emitting layer morphology control.
• Implementing large-area roll-to-roll solution processing.
• Demonstration of flexible OLEDs integrated into a luminaire.
SOLEDLIGHT will scale up both the chemical synthesis of these material systems and the R2R coating technology to a pilot production line.
SOLEDLIGHT has assembled a consortium comprising a Osram (leading OLED manufacturer and integrator), Solvay (leading OLED materials manufacturer), TNO/Holst Centre (an excellence centre for organic devices with a state-of-the-art R2R line and leading universities in the field (Univ. Valencia, EPFL and Imperial College). The participation of Osram ensures a rapid transfer to future products.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/643791 |
| Start date: | 01-01-2015 |
| End date: | 31-12-2017 |
| Total budget - Public funding: | 4 467 521,25 Euro - 3 692 521,00 Euro |
Cordis data
Original description
Highly efficient organic electroluminescent devices (OLEDs) are a technology that promises to reduce significantly the electricity consumption. The estimated market for OLED lighting products is large ($8 billion) and European lighting manufacturers are ideally positioned to capture a large part of it.Glass OLED products prepared by vacuum evaporation techniques have been demonstrated with good performances, yet the main bottle neck for larger market introduction is the high cost. At high production volumes the cost of OLED production is directly related to the efficiency of materials usage which is estimated to be 70 % for vacuum deposition and 90 % via solution processing.
Hence, roll-to-roll solution processed OLEDs, will lead to a significant price reduction due to more efficient organic material usage, lower capital investments and higher throughput. Additionally, these OLEDs will be produced directly on flexible substrates allowing for new light weight and space saving designs.
SOLEDLIGHT will develop hybrid and fully S2S and R2R solution processed multilayer OLEDs with power efficiencies > 100 lm/W and lifetimes > 15000 hours at 3,000 cd/m2.
This will be addressed by:
• New emitter and charge transport materials
• Methods to control multilayer stack formation.
• Interface and emitting layer morphology control.
• Implementing large-area roll-to-roll solution processing.
• Demonstration of flexible OLEDs integrated into a luminaire.
SOLEDLIGHT will scale up both the chemical synthesis of these material systems and the R2R coating technology to a pilot production line.
SOLEDLIGHT has assembled a consortium comprising a Osram (leading OLED manufacturer and integrator), Solvay (leading OLED materials manufacturer), TNO/Holst Centre (an excellence centre for organic devices with a state-of-the-art R2R line and leading universities in the field (Univ. Valencia, EPFL and Imperial College). The participation of Osram ensures a rapid transfer to future products.
Status
CLOSEDCall topic
ICT-29-2014Update Date
27-10-2022
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H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
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Organisations
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| UNIVERSITAT DE VALENCIA (Coördinator)
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| ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)
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| IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE
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| OSRAM OLED GMBH
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| Osram Opto Semiconducters GmbH
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| RHODIA OPERATIONS
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| Rhodia Laboratoire du Futur
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| SOLVAY SA
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| TNO - Nederlandse Organisatie voor Toegepast Natuurwetenschappelijk Onderzoek