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Heterogeneous stacking of nanodot monolayers by dry pick-and-place transfer and its applications in quantum dot light-emitting diodes

Author

Listed:
  • Tae-Ho Kim

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Dae-Young Chung

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • JiYeon Ku

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Inyong Song

    (Analytic Science Group, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Soohwan Sul

    (Analytic Science Group, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Dae-Hyeong Kim

    (Center for Nanoparticle Research of Institute for Basic Science, School of Chemical and Biological Engineering, Seoul National University)

  • Kyung-Sang Cho

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Byoung Lyong Choi

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Jong Min Kim

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics
    Present address: Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, UK)

  • Sungwoo Hwang

    (Frontier Research Laboratory, Samsung Advanced Institute of Technology, Samsung Electronics)

  • Kinam Kim

    (Samsung Advanced Institute of Technology, Samsung Electronics
    Present address: Samsung Display, Asan, Chungcheongnam-do 336-741, South Korea)

Abstract

Layered assembly structures composed of nanomaterials, such as nanocrystals, have attracted considerable attention as promising candidates for new functional devices whose optical, electromagnetic and electronic behaviours are determined by the spatial arrangement of component elements. However, difficulties in handling each constituent layer in a material-specific manner limit the 3D integration of disparate nanomaterials into the appropriate heterogeneous electronics. Here we report a pick-and-place transfer method that enables the transfer of large-area nanodot assemblies. This solvent-free transfer utilizes a lifting layer and allows for the reliable transfer of a quantum dot (QD) monolayer, enabling layer-by-layer design. With the controlled multistacking of different bandgap QD layers, we are able to probe the interlayer energy transfer among different QD monolayers. By controlling the emission spectrum through such designed monolayer stacking, we have achieved white emission with stable optoelectronic properties, the closest to pure white among the QD light-emitting diodes reported so far.

Suggested Citation

  • Tae-Ho Kim & Dae-Young Chung & JiYeon Ku & Inyong Song & Soohwan Sul & Dae-Hyeong Kim & Kyung-Sang Cho & Byoung Lyong Choi & Jong Min Kim & Sungwoo Hwang & Kinam Kim, 2013. "Heterogeneous stacking of nanodot monolayers by dry pick-and-place transfer and its applications in quantum dot light-emitting diodes," Nature Communications, Nature, vol. 4(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3637
    DOI: 10.1038/ncomms3637
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    Cited by:

    1. Chatura Samarakoon & Hyung Woo Choi & Sanghyo Lee & Xiang-Bing Fan & Dong-Wook Shin & Sang Yun Bang & Jeong-Wan Jo & Limeng Ni & Jiajie Yang & Yoonwoo Kim & Sung-Min Jung & Luigi G. Occhipinti & Gehan, 2022. "Optoelectronic system and device integration for quantum-dot light-emitting diode white lighting with computational design framework," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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