Journals Articles Conferences News About CLP
Submit a paper Email Alert
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
2D MaterialsTransformation opticsQuantum PhotonicsSmall lasersSemiconductor UV PhotonicsSupersymmetric microring laser arrays

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
    • show less
    Full TextGet PDF
    Figures&Tables (12)
    Equations (4)
    References (31)
    Cited By (152)
    Tools
    Paper Information
    Topics
    References(31)

    [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[J]. Photonics Research, 2019, 7(4): 416

    [3] 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

    [4] 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[J]. Photonics Research, 2020, 8(7): 1110

    [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] 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[J]. Photonics Research, 2019, 7(5): 579

    [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[J]. Photonics Research, 2020, 8(6): 1049

    Tools

    Get Citation

    Copy Citation Text

    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[J]. Photonics Research, 2017, 5(5): 411

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Set citation alerts for article
    Save article for my favorites
    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