Novaled develops world's most efficient white OLEDs

May 13, 2011
Dresden, Germany--Novaled has developed the world's most power-efficient fluorescent white OLED structures, achieving 36 lumens per Watt.

Dresden, Germany--Organic light-emitting diodes (OLEDs) technology and materials provider Novaled has developed the world's most power-efficient fluorescent white OLED structures, achieving 36 lumens per Watt (36 lm/W). Using its proprietary organic materials and a new flat light outcoupling method of extraction, Novaled increased OLED device light emission by more than 80%, with good color rendering, and also improved the angular dependence of the light emitted.

Novaled says its new power-efficient fluorescent white PIN OLEDs result in lower manufacturing costs and meet the standards for commercial lighting applications, making them ideal for OLED lamps and luminaires for general and design lighting. Novaled will showcase its new technology in Booth #927-4 of the German Pavilion at the Society for Information Display's (SID) annual International Symposium, Seminar & Exhibition, "Display Week 2011," May 17-19, 2011, at the Los Angeles Convention Center, Los Angeles, CA; it also will present two papers there on May 20, 2011, on its enhanced outcoupling methods and materials, and on materials for hybrid OLEDs in display applications.

According to Novaled CEO Gildas Sorin, "Until now, typical outcoupling methods have been somewhat ineffective or have resulted in rising manufacturing costs. Novaled has overcome both challengespioneering a novel way to significantly improve light outcoupling results and boost external quantum efficiency by more than 80 percent, without the costly and time-consuming setup traditionally required for complex manufacturing. Novaled is a well recognized materials provider for OLED and other organic electronic applications. We will continue to use our expertise to develop leading-edge solutions that help advance OLED technology toward widespread use for mass-manufactured lighting applications."

Novaled’s methods boost outcoupling effectiveness, substantially increasing the 25-35% fraction of generated light that typically leaves the OLED device for lighting applications. They also increase power efficiency and quantum efficiency in both bottom- and top-emission OLEDs. In bottom-emission OLEDs Novaled incorporates the material NET61 directly inside the electron transport layers. The combination of NET61 internal outcoupling and an external micro lens array (MLA) film boosts power efficiency by more than 70% and quantum efficiency by more than 80%. In top-emission OLEDs, Novaled uses scattering material NLE17 on top of the semi-transparent top electrode to help extract light and improve the quality of light emitted from top-emission white OLED devices.

Novaled’s new outcoupling techniques use standard processes to produce the white PIN OLED device structures, thus reducing manufacturing costs for both bottom-emission and top-emission OLEDs. Unlike other outcoupling enhancement approaches in bottom-emission OLEDssuch as depositing complicated structured layers between substrate glass and the indium tin oxide (ITO) anodeNovaled uses simple internal outcoupling methods with vacuum evaporation processed organic materials to induce scattering of the light emitted by the OLED. In both bottom- and top-emission OLEDs, the scattering does not negatively impact electrical properties.

In addition, Novaled’s new method improves the Color Rendering Index (CRI) value for top-emission OLEDs on metal substrates. Although top-emission samples on metal substrates with a white light emission typically have stronger cavity effects than bottom-emission devices and show strong variations with the viewing angle, Novaled increases light extraction from top-emission white OLEDs and strongly reduces angular color dependence by using a scattering evaporation processed organic layer on top of the semi-transparent top electrode. Novaled’s demonstrated CRI of 75 for top-emission OLEDs is ample for many commercial lighting applications.

SOURCE: Novaled; www.novaled.com

About the Author

Gail Overton | Senior Editor (2004-2020)

Gail has more than 30 years of engineering, marketing, product management, and editorial experience in the photonics and optical communications industry. Before joining the staff at Laser Focus World in 2004, she held many product management and product marketing roles in the fiber-optics industry, most notably at Hughes (El Segundo, CA), GTE Labs (Waltham, MA), Corning (Corning, NY), Photon Kinetics (Beaverton, OR), and Newport Corporation (Irvine, CA). During her marketing career, Gail published articles in WDM Solutions and Sensors magazine and traveled internationally to conduct product and sales training. Gail received her BS degree in physics, with an emphasis in optics, from San Diego State University in San Diego, CA in May 1986.

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