Improved tandem organic LEDs
Stacking organic light emitting diodes (OLEDs) leads to brighter, stabler, longer lived light sources than individual OLEDs.
Unfortunately, the metal layers typically used to connect the individual elements are not very transparent, reducing the resulting brightness of underlying OLEDs in a tandem configuration. Researchers in the Display Technology Laboratory at Eastman Kodak Company have now managed to stack OLEDs that are connected through optically transparent, organic semiconductor materials.
The improvement in brightness in the tandem OLED is essentially linearly related to the number of individual light emitting segments included in the device, that is, a three segment tandem OLED is roughly three times as bright as a conventional OLED.
Tandem OLEDs could lead to brighter TVs and computer screens. They could also make it easier to read mobile phone displays. The researchers propose that tandem OLEDs may also be useful as lighting sources for liquid crystal display backlighting or as solid-state room lights.
In addition, varying the number of units in a tandem OLED stack changes the operating voltage, allowing the possibility of tailoring the devices to match different electrical sources, such as household 110 V systems. Conventional LED lighting, on the other hand, typically required transformers to adjust power sources to meet the lighting element's electrical specifications.
Power electronics market set to grow
After two years of stagnancy, the power semiconductor devices market is set to prosper, according...
Faster multicore chips
Computer chips' clocks have stopped getting faster. To keep delivering performance...
Extreme-temperature electronics
Many industries are calling for electronics that can operate reliably in a harsh environment,...