Nature Communications (Nov 2024)

Development of fin-LEDs for next-generation inorganic displays using face-selective dielectrophoretic assembly

  • SeungJe Lee,
  • Yun Jae Eo,
  • Minji Ko,
  • Soomin Ahn,
  • Selim Yun,
  • Hyeng Jin Kim,
  • Eunha Hong,
  • Yuna Kwon,
  • Huiyeong Kang,
  • Yong Jae Lee,
  • Gang Yeol Yoo,
  • Keyong Nam Lee,
  • Jae Kyu Song,
  • Jong Kyu Kim,
  • Hyun Min Cho,
  • Young Rag Do

DOI
https://doi.org/10.1038/s41467-024-53965-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract Micro-light-emitting diodes offer vibrant colors and energy-efficient performance, holding promise for next-generation inorganic displays. However, their widespread adoption requires the development of cost-effective chips and low-defect pixelation processes. Addressing these challenges, nanorod-light-emitting diodes utilize inkjet and dielectrophoretic assembly techniques. Nevertheless, the small volume and edge-directed emission of nanorod-light-emitting diodes necessitate brightness and light extraction improvements. As an alternative, we propose dielectrophoretic-friendly fin-light-emitting diodes, designed to enhance brightness and light extraction efficiency through face-selective dielectrophoretic assembly technology. Our results confirm the potential for next-generation inorganic displays, with a wafer utilization ratio exceeding 90%, a vertical assembly ratio of 91.3%, and a pixel production yield of 99.93%. Moreover, blue fin-light-emitting diodes achieve an external quantum efficiency of 9.1% and a brightness of 8640 cd m−2 at 5.0 V, which, even at this early stage, are comparable to existing technologies.