Arizona State University has developed the first flexible OLED display

Arizona State University Flexible Display Center (FDC) and M5451Q datasheet and the United States Universal Display Corporation (UDC) announced the development of the first amorphous silicon flexible active matrix organic light-emitting diode (OLED) displays, this display is the use of DuPont Teijin (Dupont Teijin) the production of PEN films. And the use of use of UDCs phosphorescent materials and M5451Q price and proprietary bonding FDC / to bonding (bond-debond) production technology. The 4.1-inch monochrome video graphics array (QVGA) representatives to implement flexible organic light-emitting diode (OLED) display manufacturing solutions milestone. The design of flexible OLED displays

main goal is to some military and M5451Q suppliers and commercial applications that require more robust display. By UDCs PHOLED technology and materials, the new display has a very low power consumption, and achieves the same brightness and traditional monitors. Additional technical advantages, including the less heat is generated, so the lower the temperature of operation, easier drive, longer battery life, more stable transistors.

"The soft-active organic light emitting display technology provides a strong manufacturing industry, mass production and commercialization of organic light-emitting diode soft start" FDC engineering director Shawn ORourke said. Flexible Display Center at

(FDC), the manufacture of flexible display backplane 180 ℃ is the use of thin-film transistor process. And using traditional flat panel displays and semiconductor tools and processes to create the display, in addition, FDC also uses its proprietary bonding / to bonding (bond-debond), to ensure that the manufacturing process in operation, the plastic substrate fixed.

Integrate Universal Display Corporation chiral phosphorus organic light-emitting diodes spin (PHOLED) technology provides the front panel key technology. OLED materials to convert the PHOLED up to one hundred percent of electricity to the light, rather than the traditional fluorescent organic light-emitting diodes convert only two per cent XV to provide up to 4 times the energy use efficiency.