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    Journals >Acta Photonica Sinica >Volume 51 >Issue 5 >Page 0551316 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 5, 0551316 (2022)
    Fabrication of Hybrid Micro-nano Structures Based on Plasma Treatment and Its Light Extraction Performances for OLED
    Deming HONG1, Guixiong CHEN1, Wenwen WANG1, Jinwei ZHAO3, Xiongtu ZHOU1、2、*, Yongai ZHANG1、2, Chaoxing WU1、2, and Tailiang GUO1、2
    Author Affiliations
  • 1College of Physics and Information Engineering,Fuzhou University,Fuzhou 350116,China
  • 2Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China,Fuzhou 350116,China
  • 3School of Advanced Manufacturing,Fuzhou University,Quanzhou,Fujian 362200,China
    • show less
    DOI: 10.3788/gzxb20225105.0551316 Cite this Article
    Deming HONG, Guixiong CHEN, Wenwen WANG, Jinwei ZHAO, Xiongtu ZHOU, Yongai ZHANG, Chaoxing WU, Tailiang GUO. Fabrication of Hybrid Micro-nano Structures Based on Plasma Treatment and Its Light Extraction Performances for OLED[J]. Acta Photonica Sinica, 2022, 51(5): 0551316 Copy Citation Text show less
    References

    [1] Y F LIU, J FENG, Y G BI et al. Recent developments in flexible organic light-emitting devices. Advanced Materials Technologies, 4, 1800371(2019).

    [2] F HIROHIKO, S TSUBASA, T TOSHIMITSU et al. Long-lived flexible displays employing efficient and stable inverted organic light-emitting diodes. Advanced Materials, 30, 1706768(2018).

    [3] S M LEE, J H KWON, S KWON et al. A review of flexible OLEDs toward highly durable unusual displays. IEEE Transactions on Electron Devices, 64, 1922-1931(2017).

    [4] Y LUO, C WANG, L WANG et al. Flexible organic light-emitting diodes with enhanced light out-coupling efficiency fabricated on a double-sided nanotextured substrate. Acs Applied Materials & Interfaces, 6, 10213-10219(2014).

    [5] L ZHOU, X JIANG, Y LI et al. Light extraction of trapped optical modes in polymer light-emitting diodes with nanoimprinted double-pattern gratings. Acs Applied Materials & Interfaces, 6, 18139(2014).

    [6] Y S SHIM, K N KIM, J H HWANG et al. Spectral-distortion-free light extraction from organic light-emitting diodes using nanoscale photonic crystal. Nanotechnology, 28, 045301(2017).

    [7] S WANG, X DOU, L CHEN et al. Enhanced light out-coupling efficiency of quantum dot light emitting diodes by nanoimprint lithography. Nanoscale, 10, 11651-11656(2018).

    [8] J ZHOU, A NA, W LEI et al. Roughening the white OLED substrate's surface through sandblasting to improve the external quantum efficiency. Organic Electronics, 12, 648-653(2011).

    [9] K Y PENG, D H WEI. Improving light extraction of organic light-emitting devices by attaching nanostructures with self-assembled photonic crystal patterns. International Journal of Photoenergy, 2014, 2014, 1-9(2014).

    [10] A BERTRAND, F DUMUR, M MRUCZKIEWICZ et al. Bottom-up honeycomb top layer for light outcoupling enhancement in blue organic light emitting diodes. Organic Electronics, 52, 222-229(2018).

    [11] A KIM, G HUSEVNOVA, J LEE et al. Enhancement of out-coupling efficiency of flexible organic light-emitting diodes fabricated on an MLA-patterned parylene substrate. Organic Electronics, 71, 246-250(2019).

    [12] EOM , H SANG. Enhancing light extraction in organic light-emitting devices via hemispherical microlens arrays fabricated by soft lithography. Journal of Photonics for Energy, 1, 011002(2011).

    [13] A SALEHI, X FU, D H SHIN et al. Recent advances in OLED optical design. Advanced Functional Materials, 29, 1-21(2019).

    [14] P PIGNALOSA, B LIU, H CHEN et al. Giant light extraction enhancement of medical imaging scintillation materials using biologically inspired integrated nanostructures. Optics Letters, 37, 2808-2810(2012).

    [15] J D CHEN, T Y JIN, Y Q LI et al. Recent progress of light manipulation strategies in organic and perovskite solar cells. Nanoscale, 11, 18517-18536(2019).

    [16] Z XUE, H SONG, J A ROGERS et al. Mechanically-guided structural designs in stretchable inorganic electronics. Advanced Materials, 32, 1902254(2020).

    [17] A BAY, N ANDRÉ, M SARRAZIN et al. Optimal overlayer inspired by Photuris firefly improves light-extraction efficiency of existing light-emitting diodes. Optics Express, 21, A179-189(2013).

    [18] J H KWACK, J CHOI, C H PARK et al. Simple method for fabricating scattering layer using random nanoscale rods for improving optical properties of organic light-emitting diodes. Scientific Reports, 8, 1-8(2018).

    [19] R WANG, L H XU, Y Q LI et al. Broadband light out-coupling enhancement of flexible organic light‐emitting diodes using biomimetic quasirandom nanostructures. Advanced Optical Materials, 3, 203-210(2015).

    [20] M R ALEXANDER, R D SHORT, F R JONES et al. An X-ray photoelectron spectroscopic investigation into the chemical structure of deposits formed from hexamethyldisiloxane/ oxygen plasmas. Journal of Materials Science, 31, 1879-1885(1996).

    [21] D F MITCHELL, K B CLARK, J A BARDWELL et al. Film thickness measurements of SiO2 by XPS. Surface and Interface Analysis, 21, 44-50(1994).

    [22] S YANG, K KHARE, P C LIN. Harnessing surface wrinkle patterns in soft matter. Advanced Functional Materials, 20, 2550-2564(2010).

    [23] H JIANG, D Y KHANG, J SONG et al. Finite deformation mechanics in buckled thin films on compliant supports. Proceedings of the National Academy of Sciences, 104, 15607-15612(2007).

    [24] Y LI, M KOVAI, J WESTPHALEN et al. Tailor-made nanostructures bridging chaos and order for highly efficient white organic light-emitting diodes. Nature Communications, 10, 1-11(2019).

    [25] J YANG, J TANG, H GUO et al. Fabrication of micron and submicron gratings by using plasma treatment on the curved polydimethylsiloxane surfaces. Optical Materials, 72, 241-246(2017).

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    Deming HONG, Guixiong CHEN, Wenwen WANG, Jinwei ZHAO, Xiongtu ZHOU, Yongai ZHANG, Chaoxing WU, Tailiang GUO. Fabrication of Hybrid Micro-nano Structures Based on Plasma Treatment and Its Light Extraction Performances for OLED[J]. Acta Photonica Sinica, 2022, 51(5): 0551316
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