OSRAM Opto Semiconductors has set an important milestone in developing OLED technology. The OLED prototypes that OSRAM has developed as part of a research project are large transparent light sources only a few hundred micrometers thick.
Thanks to new technology these organic light emitting diodes do not need separate encapsulation and can be made incredibly thin in any layout.
The company informed that the transparent test samples have a luminous area of 210 cm² and are already showing the enormous potential of OLED light sources.
“They offer a tantalizing glimpse of the extraordinary lighting applications that may one day become reality,” the company says.
According to OSRAM even the 17 x 17 cm² OLED panels provide a clear indication of the direction that the OLED lighting market is taking. The demand is for large low-profile transparent light sources.
The test samples were developed as part of the TOPAS research project funded by the Germany Ministry for Education and Research (BMBF). The aim of the project is to produce 1 m² large transparent OLED modules and will run until 2011.
Even though the modules will have to be made larger, they already have many of the properties that distinguish OLEDs from other light sources. They are extremely slim and no longer need expensive encapsulation.
Their thickness is now defined only by the substrate as the carrier material – at present this is between 300 and 700 µm. OSRAM promises further development work will lead to an even thinner carrier material and therefore even thinner OLEDs.
“These low-profile OLED modules will be even easier to use in all kinds of applications. They can be made in any shape, take up very little space and can be integrated so discreetly that they are only noticed when they are switched on,” said Dr. Karsten Heuser, head of the OLED division at OSRAM Opto Semiconductors
The OLED panels can be made transparent without any detracting structures. This is thanks to new developments in electrode design, a special component architecture and a new approach to thin-film technology.
Without any additional conductor path structures on the light-emitting surface, the current is distributed evenly over the active surface, which in turn leads to uniform luminance.
The new technology also simplifies the manufacturing process, whether OLEDs are produced on a small molecule or polymer basis. Irrespective of the material of the active layers, the technology can be used for colored, warm white and cold while OLEDs.
Heuser says the next stage is to integrate the processes into a stable manufacturing operation.
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