Nature Communications (Jun 2024)

Stretchable OLEDs based on a hidden active area for high fill factor and resolution compensation

  • Donggyun Lee,
  • Su-Bon Kim,
  • Taehyun Kim,
  • Dongho Choi,
  • Jee Hoon Sim,
  • Woochan Lee,
  • Hyunsu Cho,
  • Jong-Heon Yang,
  • Junho Kim,
  • Sangin Hahn,
  • Hanul Moon,
  • Seunghyup Yoo

DOI
https://doi.org/10.1038/s41467-024-48396-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Stretchable organic light-emitting diodes (OLEDs) have emerged as promising optoelectronic devices with exceptional degree of freedom in form factors. However, stretching OLEDs often results in a reduction in the geometrical fill factor (FF), that is the ratio of an active area to the total area, thereby limiting their potential for a broad range of applications. To overcome these challenges, we propose a three-dimensional (3D) architecture adopting a hidden active area that serves a dual role as both an emitting area and an interconnector. For this purpose, an ultrathin OLED is first attached to a 3D rigid island array structure through quadaxial stretching for precise, deformation-free alignment. A portion of the ultrathin OLED is concealed by letting it ‘fold in’ between the adjacent islands in the initial, non-stretched condition and gradually surfaces to the top upon stretching. This design enables the proposed stretchable OLEDs to exhibit a relatively high FF not only in the initial state but also after substantial deformation corresponding to a 30% biaxial system strain. Moreover, passive-matrix OLED displays that utilize this architecture are shown to be configurable for compensation of post-stretch resolution loss, demonstrating the efficacy of the proposed approach in realizing the full potential of stretchable OLEDs.