OLED Displays on Flexible Metallic SubstratesJune 23, 2004 in /
Universal Display Corporation, a leading developer of organic light emitting device (OLED)technologies for flat panel displays, lighting and other opto-electronic applications, and Palo Alto Research Center (PARC), a subsidiary of Xerox Corporation, announced today a collaboration to develop poly-silicon (poly-Si) thin-film transistor (TFT) backplane technology on metal foil. The backplanes will integrate Universal Display's high-efficiency phosphorescent OLED (PHOLED™), flexible OLED (FOLED ® ) and top-emitting OLED (TOLED ® ) technologies.
While OLED displays today require the use of transparent rigid substrates, such as glass, the combination of Universal Display's TOLED and FOLED technologies enable the novel use of a thin, flexible metallic substrate as an alternative to glass. Along with providing added ruggedness for demanding military and consumer applications, the use of metallic substrates — which can withstand the high processing temperatures used in TFT manufacturing today — will accelerate the development of flexible TFT backplanes, currently a limiting factor for the commercialization of flexible active-matrix (AMOLED) displays. In addition, Universal Display's TOLED technology can enhance visual display performance by increasing the effective aperture area of the display in comparison to conventional bottom-emitting AMOLEDs.
The fabrication of the poly-Si TFT arrays at PARC builds on their long experience in developing novel TFT backplane technology for displays and image sensors, based on amorphous silicon, poly-silicon and polymer semiconductors. The PARC poly-Si technology has recently been demonstrated in image sensor arrays containing pixel amplifiers and shift registers.
The development of OLEDs on metallic substrates opens up a broader realm of futuristic applications.
"OLED Displays on Flexible Metallic Substrates" June 23, 2004 https://phys.org/news/2004-06-oled-flexible-metallic-substrates.html