DRESDEN, Germany--(BUSINESS WIRE)--Novaled, a leading technology and materials provider specializing in high-efficiency, long-lifetime organic light-emitting diodes (OLEDs) for display and lighting applications, today announced it has developed a highly power-efficient white OLED structure achieving 60 lm/W at a brightness of 1,000 cd/m2 capable of reaching a very long lifetime of 100,000 hours at an initial brightness of 1,000 cd/m2 while using commercially available fluorescent blue emitting material. The high efficiency device also demonstrates a high color rendering index (CRI) of 87. A very broad light emission spectrum and good CIE color coordinates (0.470/0.429) were achieved, which is close to illuminant A and inside the US Department of Energy (DOE) quadrangles meeting the DOE energy star color specifications. For this OLED stack Novaled intentionally used a classical and commercially available fluorescent blue emitter material. The OLED power efficiency with such materials is usually much less than with phosphorescent emitters, but due to the advantages of the Novaled PIN OLED® technology and proprietary materials a remarkably high value could be reached. The use of the fluorescent blue emitter material has several advantages. Beside the fact that it is commercially available, it allows very good device stability and guarantees a higher lifetime of OLED devices. Also, it enables a broad coverage of the complete visible colour range, resulting in the very high colour rendering index value achieved by the OLED device. The OLED sample incorporates Novaled light extraction technology and dedicated material NET 61 thereby enhancing the efficiency and improving the angular dependence of emitted light. By meeting the standards for commercial lighting applications, Novaled’s new power-efficient white PIN OLEDs are already ideal for OLED lamps and luminaires for general and design lighting. Novaled’s manufacturing uses standard processes to produce the white PIN OLED device structures. Standard glass substrates with ITO, ordinary evaporation processes and simple outcoupling methods allow for an easy adoption to existing manufacturing lines and for a cost efficient volume production of such devices.
