Journal of Information Display (Jan 2020)

A prototype active-matrix OLED using graphene anode for flexible display application

  • O Eun Kwon,
  • Jin-Wook Shin,
  • Himchan Oh,
  • Chan-mo Kang,
  • Hyunsu Cho,
  • Byoung-Hwa Kwon,
  • Chun-Won Byun,
  • Jong-Heon Yang,
  • Kang Me Lee,
  • Jun-Han Han,
  • Nam Sung Cho,
  • Jong Hyuk Yoon,
  • Seung Jin Chae,
  • Jin Sung Park,
  • Hyunkoo Lee,
  • Chi-Sun Hwang,
  • Jaehyun Moon,
  • Jeong-Ik Lee

DOI
https://doi.org/10.1080/15980316.2019.1680452
Journal volume & issue
Vol. 21, no. 1
pp. 49 – 56

Abstract

Read online

From the very first time that graphene was used as a transparent electrode for OLED applications, the emergence of active-matrix (AM)-graphene OLED displays has been envisioned. Realizing this expectation, however, turned out to be difficult. Two obstacles are the growth and transfer of a large-area graphene film and the patterning of a graphene film into pixels. To solve these problems, a process of patterning a graphene film without surface contamination was developed. The fabrication of OLED panels by the patterned graphene anode on Gen 2(370 × 470 mm)-sized and flexible substrates was successfully demonstrated. In this work, oxide TFT arrays were combined as a switching backplane, and a pixelated graphene OLED was used as an emissive layer, to realize AM-graphene OLED displays. To explore the technical feasibility of flexible AM-graphene OLED displays, the aforementioned components were formed on a flexible substrate. For commercial-level production, all the processes that were used were chosen to be compatible with the conventional display processes.

Keywords