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Photonics Research, Volume. 5, Issue 5, 411(2017)

Optical cross-talk reduction in a quantum-dot-based full-color micro-light-emitting-diode display by a lithographic-fabricated photoresist mold

Huang-Yu Lin1, Chin-Wei Sher1, Dan-Hua Hsieh1, Xin-Yin Chen1, Huang-Ming Philip Chen1, Teng-Ming Chen2, Kei-May Lau3, Chyong-Hua Chen1, Chien-Chung Lin4, and Hao-Chung Kuo1、*
Author Affiliations
  • 1Department of Photonics and Institute of Electro-Optical Engineering, National Chiao Tung University, Hsinchu 30010, China
  • 2Department of Applied Chemistry, National Chiao Tung University, Hsinchu 30010, China
  • 3Department of Electric and Computer Engineering, Hong Kong University of Science and Technology, Kowloon 999077, Hong Kong ASR, China
  • 4Institute of Photonic System, National Chiao Tung University, Tainan 711, China
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    [1] T. Komine, M. Nakagawa. Fundamental analysis for visible-light communication system using LED lights. IEEE Trans. Consum. Electron., 50, 100-107(2004).

    [2] Y. Wang, Y. Wang, N. Chi, J. Yu, H. Shang. Demonstration of 575-Mb/s downlink and 225-Mb/s uplink bi-directional SCM-WDM visible light communication using RGB LED and phosphor-based LED. Opt. Express, 21, 1203-1208(2013).

    [3] Y. Wang, N. Chi, Y. Wang, L. Tao, J. Shi. Network architecture of a high-speed visible light communication local area network. IEEE Photon. Technol. Lett., 27, 197-200(2015).

    [4] J. Vučić, C. Kottke, S. Nerreter, K. Habel, A. Büttner, K.-D. Langer, J. W. Walewski. 230  Mbit/s via a wireless visible-light link based on OOK modulation of phosphorescent white LEDs. Optical Fiber Communication Conference, OThH3(2010).

    [5] C. Chow, C. Yeh, Y. Liu, Y. Liu. Improved modulation speed of LED visible light communication system integrated to main electricity network. Electron. Lett., 47, 867-868(2011).

    [6] C. Yeh, Y. Liu, C. Chow, Y. Liu, P. Huang, H. Tsang. Investigation of 4-ASK modulation with digital filtering to increase 20 times of direct modulation speed of white-light LED visible light communication system. Opt. Express, 20, 16218-16223(2012).

    [7] F.-M. Wu, C.-T. Lin, C.-C. Wei, C.-W. Chen, Z.-Y. Chen, K. Huang. 3.22-Gb/s WDM visible light communication of a single RGB LED employing carrier-less amplitude and phase modulation. Optical Fiber Communication Conference, OTh1G. 4(2013).

    [8] Z. Wang, C. Yu, W.-D. Zhong, J. Chen, W. Chen. Performance of a novel LED lamp arrangement to reduce SNR fluctuation for multi-user visible light communication systems. Opt. Express, 20, 4564-4573(2012).

    [9] W.-Y. Lin, C.-Y. Chen, H.-H. Lu, C.-H. Chang, Y.-P. Lin, H.-C. Lin, H.-W. Wu. 10m/500Mbps WDM visible light communication systems. Opt. Express, 20, 9919-9924(2012).

    [10] H. Le Minh, D. O’Brien, G. Faulkner, L. Zeng, K. Lee, D. Jung, Y. Oh, E. T. Won. 100-Mb/s NRZ visible light communications using a postequalized white LED. IEEE Photon. Technol. Lett., 21, 1063-1065(2009).

    [11] D. Tsonev, H. Chun, S. Rajbhandari, J. J. McKendry, S. Videv, E. Gu, M. Haji, S. Watson, A. E. Kelly, G. Faulkner. A 3-Gb/s single-LED OFDM-based wireless VLC link using a gallium nitride micro-LED. IEEE Photon. Technol. Lett., 26, 637-640(2014).

    [12] I. Takai, T. Harada, M. Andoh, K. Yasutomi, K. Kagawa, S. Kawahito. Optical vehicle-to-vehicle communication system using LED transmitter and camera receiver. IEEE Photon. J., 6, 1-14(2014).

    [13] C.-C. Hsieh, Y.-H. Li, C.-C. Hung. Modular design of the LED vehicle projector headlamp system. Appl. Opt., 52, 5221-5229(2013).

    [14] C.-Y. Wu, T.-F. Wu, J.-R. Tsai, Y.-M. Chen, C.-C. Chen. Multistring LED backlight driving system for LCD panels with color sequential display and area control. IEEE Trans. Ind. Electron., 55, 3791-3800(2008).

    [15] C.-C. Chen, C.-Y. Wu, Y.-M. Chen, T.-F. Wu. Sequential color LED backlight driving system for LCD panels. IEEE Trans. Power Electron., 22, 919-925(2007).

    [16] D. Cho, W.-S. Oh, G. W. Moon. A novel adaptive dimming LED backlight system with current compensated XY channel drivers for LCD TVs. J. Display Technol., 7, 29-35(2011).

    [17] Y.-K. Lo, K.-H. Wu, K.-J. Pai, H.-J. Chiu. Design and implementation of RGB LED drivers for LCD backlight modules. IEEE Trans. Ind. Electron., 56, 4862-4871(2009).

    [18] H. Cho, O.-K. Kwon. A local dimming algorithm for low power LCD TVs using edge-type LED backlight. IEEE Trans. Consum. Electron., 56, 2054-2060(2010).

    [19] H.-J. Chiu, Y.-K. Lo, T.-P. Lee, S.-C. Mou, H.-M. Huang. Design of an RGB LED backlight circuit for liquid crystal display panels. IEEE Trans. Ind. Electron., 56, 2793-2795(2009).

    [20] J. Herrnsdorf, J. J. McKendry, S. Zhang, E. Xie, R. Ferreira, D. Massoubre, A. M. Zuhdi, R. K. Henderson, I. Underwood, S. Watson. Active-matrix GaN micro light-emitting diode display with unprecedented brightness. IEEE Trans. Electron Devices, 62, 1918-1925(2015).

    [21] K. J. Chen, H. C. Chen, K. A. Tsai, C. C. Lin, H. H. Tsai, S. H. Chien, B. S. Cheng, Y. J. Hsu, M. H. Shih, C. H. Tsai. Resonant‐enhanced full‐color emission of quantum‐dot‐based display technology using a pulsed spray method. Adv. Funct. Mater., 22, 5138-5143(2012).

    [22] 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. Resonant-enhanced full-color emission of quantum-dot-based micro-LED display technology. Opt. Express, 23, 32504-32515(2015).

    [23] R. Zhu, Z. Luo, H. Chen, Y. Dong, S.-T. Wu. Realizing Rec. 2020 color gamut with quantum dot displays. Opt. Express, 23, 23680-23693(2015).

    [24] A. J. Woods. Crosstalk in stereoscopic displays: a review. J. Electron. Imaging, 21, 040902(2012).

    [25] R. D. Deegan, O. Bakajin, T. F. Dupont, G. Huber, S. R. Nagel, T. A. Witten. Capillary flow as the cause of ring stains from dried liquid drops. Nature, 389, 827-829(1997).

    [26] C. Jiang, Z. Zhong, B. Liu, Z. He, J. Zou, L. Wang, J. Wang, J. Peng, Y. Cao. Coffee-ring-free quantum dot thin film using inkjet printing from a mixed-solvent system on modified ZnO transport layer for light-emitting devices. ACS Appl. Mater. Interfaces, 8, 26162-26168(2016).

    [27] S.-W. Wang, H.-Y. Lin, C.-C. Lin, T. S. Kao, K.-J. Chen, H.-V. Han, J.-R. Li, P.-T. Lee, H.-M. Chen, M.-H. Hong. Pulsed-laser micropatterned quantum-dot array for white light source. Sci. Rep., 6, 23563(2016).

    [28] I. García, J. Geisz, M. Steiner, J. Olson, D. Friedman, S. Kurtz. Design of semiconductor-based back reflectors for high Voc monolithic multijunction solar cells. 38th IEEE Photovoltaic Specialists Conference (PVSC), 002042(2012).

    [29] H. K. H. Choy. Design and fabrication of distributed Bragg reflectors for vertical-cavity surface-emitting lasers. IEEE International Conference on Semiconductor Electronics(1998).

    [30] K. Suzuki, A. Kobayashi, S. Kaneko, K. Takehira, T. Yoshihara, H. Ishida, Y. Shiina, S. Oishi, S. Tobita. Reevaluation of absolute luminescence quantum yields of standard solutions using a spectrometer with an integrating sphere and a back-thinned CCD detector. Phys. Chem. Chem. Phys., 11, 9850-9860(2009).

    [31] S. C. Hsu, Y. H. Chen, Z. Y. Tu, H. V. Han, S. L. Lin, T. M. Chen, H. C. Kuo, C. C. Lin. Highly stable and efficient hybrid quantum dot light-emitting diodes. IEEE Photon. J., 7, 1-7(2015).

    CLP Journals

    [1] Xiaotong Fan, Tingzhu Wu, Bin Liu, Rong Zhang, Hao-Chung Kuo, Zhong Chen. Recent developments of quantum dot based micro-LED based on non-radiative energy transfer mechanism[J]. Opto-Electronic Advances, 2021, 4(4): 210022-1

    [2] Sung-Wen Huang Chen, Chih-Chiang Shen, Tingzhu Wu, Zhen-You Liao, Lee-Feng Chen, Jia-Rou Zhou, Chun-Fu Lee, Chih-Hao Lin, Chien-Chung Lin, Chin-Wei Sher, Po-Tsung Lee, An-Jye Tzou, Zhong Chen, Hao-Chung Kuo, "Full-color monolithic hybrid quantum dot nanoring micro light-emitting diodes with improved efficiency using atomic layer deposition and nonradiative resonant energy transfer," Photonics Res. 7, 416 (2019)

    [3] Chih-Hao Lin, Akta Verma, Chieh-Yu Kang, Yung-Min Pai, Tzu-Yu Chen, Jin-Jia Yang, Chin-Wei Sher, Ya-Zhu Yang, Po-Tsung Lee, Chien-Chung Lin, Yu-Chuan Wu, S. K. Sharma, Tingzhu Wu, Shu-Ru Chung, Hao-Chung Kuo, "Hybrid-type white LEDs based on inorganic halide perovskite QDs: candidates for wide color gamut display backlights," Photonics Res. 7, 579 (2019)

    [4] Zhou Wang, Xinyi Shan, Xugao Cui, Pengfei Tian. Characteristics and techniques of GaN-based micro-LEDs for application in next-generation display[J]. Journal of Semiconductors, 2020, 41(4): 041606

    [5] Shiyao CHEN, Peiqi CHEN, Yalian WENG, Yan WU, Chaoxing WU, Xiongtu ZHOU, Yongai ZHANG, Tailiang GUO. Study on Fabrication and Color Conversion of InP/ZnS Quantum Dots with Adjustable Fluorescence Wavelength[J]. Optoelectronic Technology, 2021, 41(1): 27

    [6] Rongqiao Wan, Xiang Gao, Liancheng Wang, Shuo Zhang, Xiongbin Chen, Zhiqiang Liu, Xiaoyan Yi, Junxi Wang, Junhui Li, Wenhui Zhu, Jinmin Li, "Phosphor-free single chip GaN-based white light emitting diodes with a moderate color rendering index and significantly enhanced communications bandwidth," Photonics Res. 8, 1110 (2020)

    [7] Jae Hyeok Lee, Abu Bashar Mohammad Hamidul Islam, Tae Kyoung Kim, Yu-Jung Cha, Joon Seop Kwak, "Impact of tin-oxide nanoparticles on improving the carrier transport in the Ag/p-GaN interface of InGaN/GaN micro-light-emitting diodes by originating inhomogeneous Schottky barrier height," Photonics Res. 8, 1049 (2020)

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    Huang-Yu Lin, Chin-Wei Sher, Dan-Hua Hsieh, Xin-Yin Chen, Huang-Ming Philip Chen, Teng-Ming Chen, Kei-May Lau, Chyong-Hua Chen, Chien-Chung Lin, Hao-Chung 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, 411 (2017)

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    Paper Information

    Category: Optical Devices

    Received: Mar. 29, 2017

    Accepted: Jun. 12, 2017

    Published Online: Aug. 31, 2017

    The Author Email: Hao-Chung Kuo (hckuo@faculty.nctu.edu.tw)

    DOI:10.1364/PRJ.5.000411

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology