Abstract

Pixelated color converters are envisioned to achieve full-color high-resolution display through down conversion of blue/ultraviolet(UV) micro-LEDs. Quantum dots (QDs) are promising narrow-band converters of high quantum efficiency and brightness enabling saturated colors with wide color gamut in displays. Here we demonstrate high-resolution pixelated red and green QDs/thiol-ene photo-polymer converters (single pixel down to 6 µm; converters array of 21 µm pixel, 30 µm pitch and sub 10 µm thickness) patterned through projection lithography. QDs capped with amine surface group are uniformly dispersed in thiol-ene photo-polymer matrix at high concentrations (up to 100 mg/mL), which reduces aggregation and improves conversion efficiency by 0.5-1 times compared to drop-cast QDs. Color cross-talk is also reduced through patterning light blocking walls between converter pixels.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Full Article  |  PDF Article
OSA Recommended Articles
Multi-primary-color quantum-dot down-converting films for display applications

Shuyan Lin, Guanjun Tan, Jinhui Yu, Enguo Chen, Yalian Weng, Xiongtu Zhou, Sheng Xu, Yun Ye, Qun Frank Yan, and Tailiang Guo
Opt. Express 27(20) 28480-28493 (2019)

Realization of 95% of the Rec. 2020 color gamut in a highly efficient LCD using a patterned quantum dot film

Hyo-Jun Kim, Min-Ho Shin, Jae-Yong Lee, Ji-Hoon Kim, and Young-Joo Kim
Opt. Express 25(10) 10724-10734 (2017)

Remote-type, high-color gamut white light-emitting diode based on InP quantum dot color converters

Sun-Hyoung Lee, Ki-Heon Lee, Jung-Ho Jo, Byoungnam Park, Yongwoo Kwon, Ho Seong Jang, and Heesun Yang
Opt. Mater. Express 4(7) 1297-1302 (2014)

References

  • View by:
  • |
  • |
  • |

  1. B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
    [Crossref]
  2. T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
    [Crossref]
  3. K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
    [Crossref]
  4. S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).
  5. D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
    [Crossref]
  6. M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
    [Crossref]
  7. S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
    [Crossref]
  8. D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
    [Crossref]
  9. N. McAlinden, D. Massoubre, E. Richardson, E. Gu, S. Sakata, M. D. Dawson, and K. Mathieson, “Thermal and optical characterization of micro-LED probes for in vivo optogenetic neural stimulation,” Opt. Lett. 38(6), 992–994 (2013).
    [Crossref]
  10. S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.
  11. B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
    [Crossref]
  12. S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
    [Crossref]
  13. J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
    [Crossref]
  14. M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
    [Crossref]
  15. F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
    [Crossref]
  16. H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
    [Crossref]
  17. H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
    [Crossref]
  18. B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
    [Crossref]
  19. B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
    [Crossref]
  20. H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
    [Crossref]
  21. E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.
  22. S. Lee and C. Lee, “High-density quantum dots composites and its photolithographic patterning applications,” Polym. Adv. Technol. 30(3), 749–754 (2019).
    [Crossref]
  23. M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
    [Crossref]
  24. L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.
  25. S. Sadeghi, B. G. Kumar, R. Melikov, M. M. Aria, H. B. Jalali, and S. Nizamoglu, “Quantum dot white LEDs with high luminous efficiency,” Optica 5(7), 793–802 (2018).
    [Crossref]
  26. M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
    [Crossref]
  27. T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.
  28. H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
    [Crossref]
  29. F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
    [Crossref]
  30. J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
    [Crossref]
  31. Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
    [Crossref]
  32. Z. Xiong, H. Liu, R. Chen, J. Xu, Q. Li, J. Li, and W. Zhang, “Illumination uniformity improvement in digital micromirror device based scanning photolithography system,” Opt. Express 26(14), 18597–18607 (2018).
    [Crossref]
  33. Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
    [Crossref]
  34. E. H. Virey and N. Baron, “Status and prospects of microLED displays,” in SID Symposium Digest of Technical Papers, vol. 49 (Wiley Online Library, 2018), pp. 593–596.
  35. F. L. Pedrotti, L. M. Pedrotti, and L. S. Pedrotti, Introduction to Optics (Cambridge University, 2017).
  36. T. Smith and J. Guild, “The CIE colorimetric standards and their use,” Trans. Opt. Soc., London 33(3), 73–134 (1931).
    [Crossref]
  37. D-Cinema Quality-Reference Projector and Environment (SMPTE Recommended Practice, 2011).
  38. A. B. Lowe, “Thiol-ene click reactions and recent applications in polymer and materials synthesis,” Polym. Chem. 1(1), 17–36 (2010).
    [Crossref]
  39. F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
    [Crossref]
  40. R. W. Sabnis, “Color filter technology for liquid crystal displays,” Displays 20(3), 119–129 (1999).
    [Crossref]

2019 (5)

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

S. Lee and C. Lee, “High-density quantum dots composites and its photolithographic patterning applications,” Polym. Adv. Technol. 30(3), 749–754 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

2018 (8)

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Z. Xiong, H. Liu, R. Chen, J. Xu, Q. Li, J. Li, and W. Zhang, “Illumination uniformity improvement in digital micromirror device based scanning photolithography system,” Opt. Express 26(14), 18597–18607 (2018).
[Crossref]

S. Sadeghi, B. G. Kumar, R. Melikov, M. M. Aria, H. B. Jalali, and S. Nizamoglu, “Quantum dot white LEDs with high luminous efficiency,” Optica 5(7), 793–802 (2018).
[Crossref]

D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
[Crossref]

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

2017 (4)

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

2016 (3)

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
[Crossref]

2015 (4)

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

2014 (1)

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

2013 (2)

N. McAlinden, D. Massoubre, E. Richardson, E. Gu, S. Sakata, M. D. Dawson, and K. Mathieson, “Thermal and optical characterization of micro-LED probes for in vivo optogenetic neural stimulation,” Opt. Lett. 38(6), 992–994 (2013).
[Crossref]

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

2010 (2)

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

A. B. Lowe, “Thiol-ene click reactions and recent applications in polymer and materials synthesis,” Polym. Chem. 1(1), 17–36 (2010).
[Crossref]

1999 (1)

R. W. Sabnis, “Color filter technology for liquid crystal displays,” Displays 20(3), 119–129 (1999).
[Crossref]

1997 (1)

J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
[Crossref]

1931 (1)

T. Smith and J. Guild, “The CIE colorimetric standards and their use,” Trans. Opt. Soc., London 33(3), 73–134 (1931).
[Crossref]

Allen, P.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

Aria, M. M.

Aventurier, B.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Avrutin, V.

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Ayub, S.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

Bamiedakis, N.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Bao, B.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Baron, N.

E. H. Virey and N. Baron, “Status and prospects of microLED displays,” in SID Symposium Digest of Technical Papers, vol. 49 (Wiley Online Library, 2018), pp. 593–596.

Beverina, L.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Breen, C.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

Brovelli, S.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Bunning, T. J.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Cao, Z.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Carpenter, A.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Chen, C.-H.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Chen, H.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Chen, H.-M.

Chen, H.-M. P.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Chen, K.-J.

Chen, R.

Chen, T.-M.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

Chen, X.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Chen, X.-Y.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Chen, Z.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Chong, W.-C.

Chua, C.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Coe-Sullivan, S.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

Colombo, A.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Daami, A.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Dawson, M. D.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

N. McAlinden, D. Massoubre, E. Richardson, E. Gu, S. Sakata, M. D. Dawson, and K. Mathieson, “Thermal and optical characterization of micro-LED probes for in vivo optogenetic neural stimulation,” Opt. Lett. 38(6), 992–994 (2013).
[Crossref]

de Mello, J. C.

J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
[Crossref]

Deng, Q.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Ding, K.

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Dong, X.-Z.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Duan, X.-M.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Dupré, L.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Einfeldt, S.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Engesser, F.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

Ferreira, R. X.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Friend, R. H.

J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
[Crossref]

Gao, H.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Gossler, C.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

Gou, F.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Groetsch, S.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

Gu, E.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

N. McAlinden, D. Massoubre, E. Richardson, E. Gu, S. Sakata, M. D. Dawson, and K. Mathieson, “Thermal and optical characterization of micro-LED probes for in vivo optogenetic neural stimulation,” Opt. Lett. 38(6), 992–994 (2013).
[Crossref]

Gu, Z.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Guild, J.

T. Smith and J. Guild, “The CIE colorimetric standards and their use,” Trans. Opt. Soc., London 33(3), 73–134 (1931).
[Crossref]

Guo, R.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Guo, W.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Guo, Z.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Haas, H.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Hamilton, C.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

Han, H.-V.

Haneder, S.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

He, X.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

He, Y.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Henry, F.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Hiller, U.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

Ho, J.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

Hong, H.-G.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Hotz, C.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Hsiang, E.-L.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Hsieh, D.-H.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Hu, R.

B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
[Crossref]

Hu, S.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Huang Chen, S.-W.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Islim, M. S.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Izyumskaya, N.

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Jalali, H. B.

Ji, B.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Jiang, J.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Jiang, L.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Jin, F.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Johson, N. M.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Jung, J.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Kan, S.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Kang, S.-K.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Kelly, A. E.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Kim, B. H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Kim, H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Kim, H.-J.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Kim, J.-H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Kim, N. H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Kim, S.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Kim, S.-K.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Kim, Y.-J.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Klimov, V. I.

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Knauer, A.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Kneissl, M.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Kolbe, T.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Koo, W.-H.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Kueller, V.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Kumar, B. G.

Kundaliya, D.

D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
[Crossref]

Kuo, H.-C.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

Lan, Y.-F.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Lau, K.-M.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

Leal, C.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Lee, C.

S. Lee and C. Lee, “High-density quantum dots composites and its photolithographic patterning applications,” Polym. Adv. Technol. 30(3), 749–754 (2019).
[Crossref]

Lee, C. H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Lee, C.-F.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Lee, E.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Lee, J.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Lee, J. W.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Lee, K. M.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Lee, S.

S. Lee and C. Lee, “High-density quantum dots composites and its photolithographic patterning applications,” Polym. Adv. Technol. 30(3), 749–754 (2019).
[Crossref]

Li, H.

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

Li, J.

Li, J.-R.

Li, M.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Li, Q.

Li, W.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Li, Y.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Liang, S.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Lim, J.

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

Lim, J. B.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Lin, C. H.

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Lin, C.-C.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

Lin, H.-Y.

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

H.-V. Han, H.-Y. Lin, C.-C. Lin, W.-C. Chong, J.-R. Li, K.-J. Chen, P. Yu, T.-M. Chen, H.-M. Chen, K.-M. Lau, and H.-C. Kuo, “Resonant-enhanced full-color emission of quantum-dot-based micro LED display technology,” Opt. Express 23(25), 32504–32515 (2015).
[Crossref]

Lin, Y.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Lin, Z. L.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Liu, H.

Liu, J.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Liu, R.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Liu, W.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

Liu, X.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Liu, Y.-H.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Lobo, N.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Lorenzon, M.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Lowe, A. B.

A. B. Lowe, “Thiol-ene click reactions and recent applications in polymer and materials synthesis,” Polym. Chem. 1(1), 17–36 (2010).
[Crossref]

Lu, Y.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Luo, X.

B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
[Crossref]

Luo, Z.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Ma, R.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Malak, S. T.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Marra, M.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Massoubre, D.

Mathieson, K.

McAlinden, N.

Mei, S.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Meinardi, F.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Melikov, R.

Mishra, K.

D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
[Crossref]

Morkoç, H.

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Nam, S.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Nizamoglu, S.

Oh, N.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Olivier, F.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Onses, M. S.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Özgür, Ü.

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Paul, O.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

Pedrotti, F. L.

F. L. Pedrotti, L. M. Pedrotti, and L. S. Pedrotti, Introduction to Optics (Cambridge University, 2017).

Pedrotti, L. M.

F. L. Pedrotti, L. M. Pedrotti, and L. S. Pedrotti, Introduction to Optics (Cambridge University, 2017).

Pedrotti, L. S.

F. L. Pedrotti, L. M. Pedrotti, and L. S. Pedrotti, Introduction to Optics (Cambridge University, 2017).

Penty, R. V.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Qi, Y.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Reill, J.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

Richardson, E.

Rodriguez, H.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Roger, J.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Ruan, C.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Ruther, P.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

Sabnis, R. W.

R. W. Sabnis, “Color filter technology for liquid crystal displays,” Displays 20(3), 119–129 (1999).
[Crossref]

Sadeghi, S.

Sakata, S.

Schwind, M.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

Sher, C.-W.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Shim, M.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Shin, J. H.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Shin, M.-H.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Simonutti, R.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Smith, M. J.

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Smith, T.

T. Smith and J. Guild, “The CIE colorimetric standards and their use,” Trans. Opt. Soc., London 33(3), 73–134 (1931).
[Crossref]

Song, B.-S.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Song, H.-J.

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

Song, Y.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Steckel, J. S.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

Stellmach, J.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Tan, G.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

Templier, F.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Tian, P.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Tirano, S.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Tsai, C.-Y.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Tsukruk, V. V.

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Velizhanin, K. A.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Verney, V.

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

Videv, S.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Viola, S.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Virey, E. H.

E. H. Virey and N. Baron, “Status and prospects of microLED displays,” in SID Symposium Digest of Technical Papers, vol. 49 (Wiley Online Library, 2018), pp. 593–596.

Viswanatha, R.

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

von Malm, N.

D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
[Crossref]

Wang, M.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Wang, X.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Watson, S.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Weyers, M.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

White, I. H.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

White, T. J.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

William, W. Y.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Wittmann, H. F.

J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
[Crossref]

Wu, C.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Wu, K.

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

Wu, S.-T.

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Wu, T.

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

Xi, J.

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

Xie, B.

B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
[Crossref]

Xie, D.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Xie, E.

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

Xiong, Z.

Xu, J.

Xue, D.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Xue, J.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Yamanaga, J.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Yang, B.

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Yang, Y.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Yang, Z.

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Yao, J.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Yoon, J.-G.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Yoon, S.-Y.

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

Yoon, Y. J.

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Yu, K. J.

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Yu, P.

Yu, S.

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

Yurek, J.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Zhang, B.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Zhang, W.

Z. Xiong, H. Liu, R. Chen, J. Xu, Q. Li, J. Li, and W. Zhang, “Illumination uniformity improvement in digital micromirror device based scanning photolithography system,” Opt. Express 26(14), 18597–18607 (2018).
[Crossref]

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Zhang, X.

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Zhang, Y.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Zhao, Y.-Y.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Zhao, Z.-S.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Zheng, C.

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Zheng, L.

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

Zheng, M.-L.

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Zhou, T.

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

Zhou, Y.

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

ACS Appl. Mater. Interfaces (2)

S. Mei, X. Liu, W. Zhang, R. Liu, L. Zheng, R. Guo, and P. Tian, “High-bandwidth white-light system combining a micro-LED with perovskite quantum dots for visible light communication,” ACS Appl. Mater. Interfaces 10(6), 5641–5648 (2018).
[Crossref]

M. J. Smith, S. T. Malak, J. Jung, Y. J. Yoon, C. H. Lin, S. Kim, K. M. Lee, R. Ma, T. J. White, T. J. Bunning, Z. L. Lin, and V. V. Tsukruk, “Robust, uniform, and highly emissive quantum dot–polymer films and patterns using thiol–ene chemistry,” ACS Appl. Mater. Interfaces 9(20), 17435–17448 (2017).
[Crossref]

Adv. Mater. (1)

J. C. de Mello, H. F. Wittmann, and R. H. Friend, “An improved experimental determination of external photoluminescence quantum efficiency,” Adv. Mater. 9(3), 230–232 (1997).
[Crossref]

Adv. Opt. Mater. (1)

M. J. Smith, C. H. Lin, S. Yu, and V. V. Tsukruk, “Composite structures with emissive quantum dots for light enhancement,” Adv. Opt. Mater. 7(4), 1801072 (2019).
[Crossref]

AIP Adv. (1)

Y.-H. Liu, Y.-Y. Zhao, X.-Z. Dong, M.-L. Zheng, F. Jin, J. Liu, X.-M. Duan, and Z.-S. Zhao, “Multi-scale structure patterning by digital-mask projective lithography with an alterable projective scaling system,” AIP Adv. 8(6), 065317 (2018).
[Crossref]

Appl. Sci. (2)

T. Wu, C.-W. Sher, Y. Lin, C.-F. Lee, S. Liang, Y. Lu, S.-W. Huang Chen, W. Guo, H.-C. Kuo, and Z. Chen, “Mini-LED and micro-LED: promising candidates for the next generation display technology,” Appl. Sci. 8(9), 1557–1573 (2018).
[Crossref]

K. Ding, V. Avrutin, N. Izyumskaya, Ü. Özgür, and H. Morkoç, “Micro-LEDs, a manufacturability perspective,” Appl. Sci. 9(6), 1206–1220 (2019).
[Crossref]

Crystals (1)

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “Tripling the optical efficiency of color-converted micro-LED displays with funnel-tube array,” Crystals 9(1), 39–48 (2019).
[Crossref]

Displays (1)

R. W. Sabnis, “Color filter technology for liquid crystal displays,” Displays 20(3), 119–129 (1999).
[Crossref]

ECS J. Solid State Sci. Technol. (2)

S. Coe-Sullivan, W. Liu, P. Allen, and J. S. Steckel, “Quantum dots for LED downconversion in display applications,” ECS J. Solid State Sci. Technol. 2(2), R3026–R3030 (2013).
[Crossref]

D. Kundaliya, N. von Malm, and K. Mishra, “Integration of YAG: Ce thin film wavelength converter on III-V blue LED via a laser lift-off process,” ECS J. Solid State Sci. Technol. 7(1), R3046–R3051 (2018).
[Crossref]

J. Disp. Technol. (1)

H.-J. Kim, M.-H. Shin, H.-G. Hong, B.-S. Song, S.-K. Kim, W.-H. Koo, J.-G. Yoon, S.-Y. Yoon, and Y.-J. Kim, “Enhancement of optical efficiency in white OLED display using the patterned photoresist film dispersed with quantum dot nanocrystals,” J. Disp. Technol. 12(6), 526–531 (2016).
[Crossref]

J. Electron. Packag. (1)

B. Xie, R. Hu, and X. Luo, “Quantum dots-converted light-emitting diodes packaging for lighting and display: status and perspectives,” J. Electron. Packag. 138(2), 020803 (2016).
[Crossref]

J. Soc. Inf. Disp. (2)

J. S. Steckel, J. Ho, C. Hamilton, J. Xi, C. Breen, W. Liu, P. Allen, and S. Coe-Sullivan, “Quantum dots: The ultimate down-conversion material for LCD displays,” J. Soc. Inf. Disp. 23(7), 294–305 (2015).
[Crossref]

F. Gou, E.-L. Hsiang, G. Tan, Y.-F. Lan, C.-Y. Tsai, and S.-T. Wu, “High performance color-converted micro-LED displays,” J. Soc. Inf. Disp. 27(4), 199–206 (2019).
[Crossref]

Micromachines (1)

Q. Deng, Y. Yang, H. Gao, Y. Zhou, Y. He, and S. Hu, “Fabrication of micro-optics elements with arbitrary surface profiles based on one-step maskless grayscale lithography,” Micromachines 8(10), 314–325 (2017).
[Crossref]

Microsyst. Nanoeng. (1)

B. Ji, Z. Guo, M. Wang, B. Yang, X. Wang, W. Li, and J. Liu, “Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes,” Microsyst. Nanoeng. 4(1), 27 (2018).
[Crossref]

Nano Lett. (1)

B. H. Kim, M. S. Onses, J. B. Lim, S. Nam, N. Oh, H. Kim, K. J. Yu, J. W. Lee, J.-H. Kim, S.-K. Kang, C. H. Lee, J. Lee, J. H. Shin, N. H. Kim, C. Leal, M. Shim, and J. Roger, “High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes,” Nano Lett. 15(2), 969–973 (2015).
[Crossref]

Nanotechnology (1)

D. Xue, C. Ruan, Y. Zhang, H. Chen, X. Chen, C. Wu, C. Zheng, H. Chen, and W. Y. William, “Enhanced bandwidth of white light communication using nanomaterial phosphors,” Nanotechnology 29(45), 455708 (2018).
[Crossref]

Nat. Energy (1)

H. Li, K. Wu, J. Lim, H.-J. Song, and V. I. Klimov, “Doctor-blade deposition of quantum dots onto standard window glass for low-loss large-area luminescent solar concentrators,” Nat. Energy 1(12), 16157 (2016).
[Crossref]

Nat. Photonics (1)

F. Meinardi, A. Colombo, K. A. Velizhanin, R. Simonutti, M. Lorenzon, L. Beverina, R. Viswanatha, V. I. Klimov, and S. Brovelli, “Large-area luminescent solar concentrators based on stokes-shift-engineered nanocrystals in a mass-polymerized pmma matrix,” Nat. Photonics 8(5), 392–399 (2014).
[Crossref]

Opt. Express (2)

Opt. Lett. (1)

Optica (1)

Photonics Res. (2)

M. S. Islim, R. X. Ferreira, X. He, E. Xie, S. Videv, S. Viola, S. Watson, N. Bamiedakis, R. V. Penty, I. H. White, A. E. Kelly, E. Gu, H. Haas, and M. D. Dawson, “Towards 10 gb/s orthogonal frequency division multiplexing-based visible light communication using a GaN violet micro-LED,” Photonics Res. 5(2), A35–A43 (2017).
[Crossref]

H.-Y. Lin, C.-W. Sher, D.-H. Hsieh, X.-Y. Chen, H.-M. P. Chen, T.-M. Chen, K.-M. Lau, C.-H. Chen, C.-C. Lin, and H.-C. Kuo, “Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold,” Photonics Res. 5(5), 411–416 (2017).
[Crossref]

Polym. Adv. Technol. (1)

S. Lee and C. Lee, “High-density quantum dots composites and its photolithographic patterning applications,” Polym. Adv. Technol. 30(3), 749–754 (2019).
[Crossref]

Polym. Chem. (1)

A. B. Lowe, “Thiol-ene click reactions and recent applications in polymer and materials synthesis,” Polym. Chem. 1(1), 17–36 (2010).
[Crossref]

Semicond. Sci. Technol. (1)

M. Kneissl, T. Kolbe, C. Chua, V. Kueller, N. Lobo, J. Stellmach, A. Knauer, H. Rodriguez, S. Einfeldt, Z. Yang, N. M. Johson, and M. Weyers, “Advances in group III-nitride-based deep UV light-emitting diode technology,” Semicond. Sci. Technol. 26(1), 014036 (2010).
[Crossref]

Small (1)

B. Bao, M. Li, Y. Li, J. Jiang, Z. Gu, X. Zhang, L. Jiang, and Y. Song, “Patterning fluorescent quantum dot nanocomposites by reactive inkjet printing,” Small 11(14), 1649–1654 (2015).
[Crossref]

Trans. Opt. Soc., London (1)

T. Smith and J. Guild, “The CIE colorimetric standards and their use,” Trans. Opt. Soc., London 33(3), 73–134 (1931).
[Crossref]

Other (8)

D-Cinema Quality-Reference Projector and Environment (SMPTE Recommended Practice, 2011).

E. H. Virey and N. Baron, “Status and prospects of microLED displays,” in SID Symposium Digest of Technical Papers, vol. 49 (Wiley Online Library, 2018), pp. 593–596.

F. L. Pedrotti, L. M. Pedrotti, and L. S. Pedrotti, Introduction to Optics (Cambridge University, 2017).

T. Zhou, B. Zhang, Y. Qi, D. Xie, J. Yao, Z. Cao, and J. Xue, “P-92: Fabrication and patterning of a wide-color-gamut color filter based on quantum dots,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2016), pp. 1469–1471.

S. Groetsch, J. Reill, M. Schwind, S. Haneder, and U. Hiller, “Illumination vs. visualization in headlamps: Way towards hd light source requirements,” in Proc. SIA VISION 2018, (SIA, 2018).

L. Dupré, M. Marra, V. Verney, B. Aventurier, F. Henry, F. Olivier, S. Tirano, A. Daami, and F. Templier, “Processing and characterization of high resolution GaN/InGaN LED arrays at 10 micron pitch for micro display applications,” in Gallium Nitride Materials and Devices XII, (International Society for Optics and Photonics, 2017), pp. 1010422–1010429.

S. Ayub, C. Gossler, F. Engesser, O. Paul, and P. Ruther, “Compact intracerebral probe with yellow phosphor-based light conversion for optogenetic control,” in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), (IEEE, 2017), pp. 1703–1706.

E. Lee, S. Kan, C. Hotz, J. Yurek, Z. Luo, H. Kim, J. Yamanaga, and A. Carpenter, “67-2: Invited paper: Ambient processing of quantum dot photoresist for emissive displays,” in SID Symposium Digest of Technical Papers, (Wiley Online Library, 2017), pp. 984–987.

Cited By

OSA participates in Crossref's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.


Figures (5)

Fig. 1.
Fig. 1. (a) Schematic of the UV DLP projection lithography printing system. (b) Schematic of patterning procedure of red (I-III) and green (IV-V) color converters on blue micro-LED array with black matrix (VI-VII) for RGB full color display (VIII). UV pattern projections are shown as the purple square beams. (c) Schematic microstructure of QDs/NOA86 composite films, consisting of cross-linked thiol-ene polymer matrix and amine capped QDs. (d) Schematic of thiol-ene reaction under UV initiation to form the polymer matrix.
Fig. 2.
Fig. 2. Microscope photos of QDs/NOA86 pixels patterned by projection lithography. (a-d) White light and UV fluorescent images of red as and green square pixels. (e, f) Patterned pixels with various sizes and shapes. The representative feature dimensions are marked by the white dash lines in Figs. 2(e)–2(f). In Fig. 2(e), the dimensions are: 43 µm, 30 µm, 22 µm, 15 µm and 6 µm, from large to small. In Fig. 2(f), the dimensions are: Star: 26 µm; Hexagon: 27µm; Circle: 30 µm; Triangle: 28 µm and Square: 30 µm. (g, h) Direct patterning of multi-color pixels on blue LED substrate. All scale bars are 100 µm.
Fig. 3.
Fig. 3. Direct patterning of QDs/NOA86 pixels on blue LEDs for color down conversion. (a, b) White light and PL images and pixelated array profiles of red and green pixels. (c) Angular emission profiles of red and green color converters from blue LED excitation. (d) Blue LED emission spectra (Blue solid line) and PL intensities of green (green solid lines) and red (red solid lines) QDs/NOA86 pixels as increasing the supply voltage on the blue LED chip. (e) Color gamut coverage of the blue LED with red and green QDs color converters. Numbers along the boundary of the chart indicate spectral wavelength of the local colors.
Fig. 4.
Fig. 4. Comparison between QDs/chloroform, QDs/NOA86 composite and drop-cast QDs. (a, b) Absorption and PL emission spectra, with red and green QDs concentration of 25 mg/mL. (c, d) PL peaks and FWHM of the 3 sample groups as increasing the red and green QDs concentration from 25 mg/mL to 100 mg/mL. (e, f) PLQY and absorbance coefficient µ$_{\textrm{a}}$ of the 3 sample groups as increasing the red and green QDs concentration from 25 mg/mL to 100 mg/mL.
Fig. 5.
Fig. 5. Color cross-talk reduction by projection lithography of ”black matrix” in between red and green QDs color converters. (a, b) White light microscope photos of color converters with and without the black matrix. The patterned light absorbing photo-polymer composite is shown as the white dash rectangular areas in Fig. 5(b). (c-f) Fluorescence images of color converters excited by 405 nm light from the UV DLP projector. Figures 5(c) and 5(e) show pixels without black matrix. Figures 5(d) and 5(f) show pixels with black matrix. The UV projection covers the whole area in Figs. 5(c)–5(d), while only covers the green color converters in Figs. 5(e)–5(f). (g) Red and green channel intensities along the white dash lines in Figs. 5(c)–5(d). (h) Red and green color channel intensities along the white dash lines in Figs. 5(e)–5(f). All scale bars are 25 µm. (i) Normalized PL intensity and fitted PL spectrum of areas with and without black matrix.

Metrics