Metasurface-driven OLED displays beyond 10,000 pixels per inch
PubDate: Oct 2020
Teams: Samsung Electronics;Stanford University;Hanyang University
Writers: Won-Jae Joo;Jisoo Kyoun;Majid Esfandyarpour;Sung-Hoon Lee;Hyun Koo;Sunjin Song;Young-Nam Kwon;Seok Ho Song;Jun Cheol Bae;Ara Jo;Myong-Jong Kwon;Sung Hyun Han;Sung-Han Kim;Sungwoo Hwang;Mark L. Brongersma2
PDF: Metasurface-driven OLED displays beyond 10,000 pixels per inch
Abstract
Optical metasurfaces are starting to find their way into integrated devices, where they can enhance and control the emission, modulation, dynamic shaping, and detection of light waves. In this study, we show that the architecture of organic light-emitting diode (OLED) displays can be completely reenvisioned through the introduction of nanopatterned metasurface mirrors. In the resulting meta-OLED displays, different metasurface patterns define red, green, and blue pixels and ensure optimized extraction of these colors from organic, white light emitters. This new architecture facilitates the creation of devices at the ultrahigh pixel densities (>10,000 pixels per inch) required in emerging display applications (for instance, augmented reality) that use scalable nanoimprint lithography. The fabricated pixels also offer twice the luminescence efficiency and superior color purity relative to standard color-filtered white OLEDs.