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Soft LEDs are primarily designed for military and commercial applications that require a more durable display. Through Universal Display's phosphorescent organic light-emitting diode technology and materials, the new display is able to enjoy the same brightness as traditional displays at very low power consumption. Other technical advantages include lower operating temperatures due to less thermal energy, easier drive, longer battery life, and more stable transistors.
"As a founding member of the Soft Display Research Center, Universal Display is very pleased to see significant progress through our partnerships," said Mike Hack, vice president of strategic product development at Univer Sal Display. "The Flexible Display Research Center and Universal Display have jointly demonstrated a technical approach to accelerate the creation of new soft organic light-emitting diode displays on plastic substrates."
"The development of soft AMOLED technology has given the industry a solid foundation as a starting point for oxygen, mass production and commercialization of soft organic light-emitting diodes," said Shawn Orourke, director of engineering at the Soft Display Research Center. "We represent a major achievement in the oxygen-based functional soft organic light-emitting diode directly on the plastic substrate through the oxygen process of the center. I believe that through continuous efforts in the next few years, we will be able to develop full-color full-scale Dynamic video soft display."
The flexible backplane display was fabricated using a 180 °C thin film transistor oxygen process at the Soft Display Research Center. The Soft Display Research Center's equipment implements traditional flat panel displays and semiconductor hardware | tools to produce flexible displays and patented bonding-debonding technology to ensure that the plastic matrix acts as a solid medium during the oxygen generation process.
UniversalDisplay's phosphorescent organic light-emitting diode frontplane integration is a key technology for soft organic light-emitting diodes (OLEDs). And the traditional fluorescent organic light-emitting diode can only convert 25% of the electrical energy into light energy. The phosphorescent organic light-emitting diode material enables the light-emitting diode to convert 100% of the electrical energy into light energy, providing the highest Up to 4 times energy efficiency. UniversalDisplay integrates a backplane specifically designed for its flexible display research center to produce displays for its phosphorescent organic light-emitting diode front plane. 
Recently, Arizona State University's Soft Display Research Center (FDC) and Universal Display Corporation announced the first a-Si:H active matrix to be produced directly on DuPont Teijin's polyethylene naphthalate (PEN) substrate. Soft Organic Light Emitting Diode (OLED) Display This 4.1?? 1/4 Video Graphics Array (QVGA) Display? The Nanoluminescent Display Corporation's Phosphorescent Organic Light Emitting Diode (PHO LED) technology and materials, and FDC's proprietary bonding-debonding production technology represents an important milestone in the development of soft organic light-emitting diodes towards oxygen-free solutions.
March 05, 2019