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  State Key Laboratory on Advanced Displays and Optoelectronics Technologies
 

    Journals

    1. Yiyi Zhu, Lei Shu, Swapnadeep Poddar, Qianpeng Zhang, Zhesi Chen, Yucheng Ding, Zhenghao Long, Suman Ma, Beitao Ren, Xiao Qiu, Zhiyong Fan, "Three-dimensional Nanopillar Arrays-based Efficient and Flexible Perovskite Solar Cells with Enhanced Stability", Nano Letters, 2022, 22, 23, 9586–9595, DOI: 10.1021/acs.nanolett.2c03694.
    2. Yucheng Ding, Gongze Liu, Zhenghao Long, Yu Zhou, Xiao Qiu, Beitao Ren, Qianpeng Zhang, Cheng Chi, Zhu'an Wan, Baoling Huang, Zhiyong Fan, "Uncooled self-powered hemispherical biomimetic pit organ for mid- to long-infrared imaging", Science Advances, 2022, 8: eabq8432, DOI: 10.1126/sciadv.abq8432.
    3. Zhilong Song, Wenying Tang, Zhesi Chen, Zhu’an Wan, Chak Lam Jonathan Chan, Chen Wang, Wenhao Ye, Zhiyong Fan, "Temperature-Modulated Selective Detection of Part-per-Trillion NO2 Using Platinum Nanoclusters Sensitized 3D Metal Oxide Nanotube Arrays", Small, 2022, 18: 2203212, DOI: 10.1002/smll.202203212.
    4. Daquan Zhang, Qianpeng Zhang, Yiyi Zhu, Swapnadeep Poddar, Yuting Zhang, Leilei Gu, Haibo Zeng, Zhiyong Fan, "Metal Halide Perovskite Nanowires: Synthesis, Integration, Properties, and Applications in Optoelectronics", Advanced Energy Materials, 2022, 2201735, DOI: 10.1002/aenm.202201735.
    5. Wenying Tang, Zhesi Chen, Zhilong Song, Chen Wang, Zhu'an Wan, Jonathan Chak Lam Chan, Zhuo Chen, Wenhao Ye, Zhiyong Fan, "Micro-heater Integrated Nanotube Array Gas Sensor for Parts-Per-Trillion Level Gas Detection and Single Sensor-based Gas Discrimination", ACS Nano, 2022, 16(7), 10968–10978, DOI: 10.1021/acsnano.2c03372.
    6. Yu Zhou, Xiao Qiu, Zhu'an Wan, Zhenghao Long, Swapnadeep Poddar, Qianpeng Zhang, Yucheng Ding, Chak Lam Jonathan Chan, Daquan Zhang, Kemeng Zhou, Yuanjing Lin, Zhiyong Fan, "Halide-exchanged perovskite photodetectors for wearable visible-blind ultraviolet monitoring", Nano Energy, 2022, 100, 107516, DOI: 10.1016/j.nanoen.2022.107516.
    7. Swapnadeep Poddar, Yuting Zhang, Zhesi Chen, Zichao Ma, Yu Fu, Yucheng Ding, Chak Lam Jonathan Chan, Qianpeng Zhang, Daquan Zhang, Zhitang Song, Zhiyong Fan, "Image Processing with Multi-level Ultra-fast Three Dimensionally Integrated Perovskite Nanowire Array", Nanoscale Horizons, 2022, 7, 759-769, DOI: 10.1039/d2nh00183g.
    8. Yu Fu, Swapnadeep Poddar, Beitao Ren, Ying Xie, Qianpeng Zhang, Daquan Zhang, Bryan Cao, Yunqi Tang, Yucheng Ding, Xiao Qiu, Lei Shu, Jin-Feng Liao, Dai-Bin Kuang, Zhiyong Fan, "Strongly Quantum-confined Perovskite Nanowire Arrays for Color Tunable Blue Light-emitting Diodes", ACS Nano, 2022, 16(5), 8388-8398, DOI: 10.1021/acsnano.2c02795.
    9. Swapnadeep Poddar, Zhesi Chen, Zichao Ma, Yuting Zhang, Chak Lam Jonathan Chan, Beitao Ren, Qianpeng Zhang, Daquan Zhang, Guozhen Shen, Haibo Zeng, Zhiyong Fan, "Robust Lead-free Perovskite Nanowire Array Based Artificial Synapses Exemplifying Gestalt Principle of Closure via a Letter Recognition Scheme", Advanced Intelligent Systems, 2022, 4, 2200065, DOI: 10.1002/aisy.202200065.
    10. Daquan Zhang, Qianpeng Zhang, Beitao Ren, Yudong Zhu, Mohamed Abdellah, Yu Fu, Bryan Cao, Chen Wang, Leilei Gu, Yucheng Ding, Kwong-Hoi Tsui, Sufeng Fan, Swapnadeep Poddar, Lei Shu, Yuting Zhang, Dai-Bin Kuang, Jin-Feng Liao, Yang Lu, Kaibo Zheng, Zhubing He, Zhiyong Fan, "Large-scale planar and spherical light-emitting diodes based on arrays of perovskite quantum wires", Nature Photonics, 2022, 16, 284-290, DOI: 10.1038/s41566-022-00978-0.
    11. Daquan Zhang, Yudong Zhu, Qianpeng Zhang, Beitao Ren, Bryan Cao, Qizhen Li, Swapnadeep Poddar, Yu Zhou, Xiao Qiu, Zhubing He, Zhiyong Fan, "Vertical heterogeneous integration of metal halide perovskite quantum-wires/nanowires for flexible narrowband photodetectors", Nano Letters, 2022, 22(7), 3062–3070, DOI: 10.1021/acs.nanolett.2c00383.
    12. Xu, Bo, Babar Hussain, Yiru Wang, Hoi Chuen Cheng, and Chik Patrick Yue. "Smart Home Control System Using VLC and Bluetooth Enabled AC Light Bulb for 3D Indoor Localization with Centimeter-Level Precision," Sensors, vol. 22, no. 21, pp. 8181, 2022.
    13. B. Hussain, Y. Wang, R. Chen and C. P. Yue, "Camera Pose Estimation Using a VLC-Modulated Single Rectangular LED for Indoor Positioning," IEEE Transactions on Instrumentation and Measurement, vol. 71, pp. 1-11, 2022.
    14. Xu, Bo, Tianxin Min, and Chik Patrick Yue. "Design of PAM-8 VLC Transceiver System Employing Neural Network-Based FFE and Post-Equalization" Electronics, vol. 11, no. 23, pp. 3908, 2022.
    15. Wang, Yiru, Babar Hussain, and Chik Patrick Yue. "VLP Landmark and SLAM-Assisted Automatic Map Calibration for Robot Navigation with Semantic Information." Robotics, vol. 11, no.4, pp. 84, 2022.
    16. X. Liu, L. Wang, C. Zhang, C. Liu, Z. Lv, Z. Liu, and C. Patrick Yue, "Micro-LED with red-green-blue super-pixel integration for simultaneous display and optical near field communication," Opt. Express, vol. 30, pp. 24889-24897, 2022.
    17. B. Hussain, Y. Wang, R. Chen, H. C. Cheng and C. P. Yue, "LiDR: Visible-Light-Communication-Assisted Dead Reckoning for Accurate Indoor Localization," IEEE Internet of Things Journal, vol. 9, no. 17, pp. 15742-15755, 2022.
    18. Ziyang Hong and C. Patrick Yue, “Efficient-Grad: Efficient Training Deep Convolutional Neutral Networks on Edge Devices with Gradient Optimizations,” ACM Transactions on Embedded Computing Systems, vol. 21, pp. 1-24, 2022.
    19. Pan, Quan, Xiongshi Luo, Zhenghao Li, Zhengzhe Jia, Fuzhan Chen, Xuewei Ding, and C. Patrick Yue. "A 26-Gb/s CMOS optical receiver with a reference-less CDR in 65-nm CMOS." Journal of Semiconductors, vol. 43, no. 7, pp. 072401, 2022.
    20. Y. Hu, Y. Wang, T. Lei, F. Wang, and M. Wong, “Neuromorphic Implementation of Logic Functions Based on Parallel Dual-Gate Thin-Film Transistors,” IEEE Electron Device Lett., vol. 43, no. 5, pp. 741–744, May 2022, DOI:10.1109/LED.2022.3164684.
    21. D. Lin, K. Chau, and M. Wong, “A Bulk-Type High-Pressure MEMS Pressure Sensor With Dual-Cavity Induced Mechanical Amplification,” J. Microelectromechanical Syst., vol. 31, no. 4, pp. 683–689, Aug. 2022, DOI:10.1109/JMEMS.2022.3179769.
    22. Y. Hu, T. Lei, Y. Wang, F. Wang, and M. Wong, “An Artificial Neural Network Implemented Using Parallel Dual-Gate Thin-Film Transistors,” IEEE Trans. Electron Devices, vol. 69, no. 10, pp. 5574–5579, Oct. 2022, DOI:10.1109/TED.2022.3201836.
    23. Y. Wang, W. Jiang, X. Xie, Z. Xia, and M. Wong, “A Kinetic Model for the Generation and Annihilation of Thermally Induced Carrier Donors in a Semiconducting Metal‐Oxide Thin Film,” Small, vol. 18, no. 41, p. 2203346, Oct. 2022, DOI:10.1002/smll.202203346. 24. R. Shi, S. Wang, Z. Xia, and M. Wong, “Low‐temperature elevated‐metal metal‐oxide thin‐film transistors and circuit building blocks on a flexible substrate,” J. Soc. Inf. Disp., vol. 30, no. 6, pp. 505–513, Jun. 2022, DOI:10.1002/jsid.1093.
    25. T. Lei, R. Shi, Y. Wang, Z. Xia, and M. Wong, “A Comparative Study on Inverters Built With Dual-Gate Thin-Film Transistors Based on Depletion- or Enhancement-Mode Technologies,” IEEE Trans. Electron Devices, vol. 69, no. 6, pp. 3186–3191, Jun. 2022, DOI:10.1109/TED.2022.3167940.
    26. Y. Wang, Y. Zhou, Z. Xia, W. Zhou, M. Zhang, F. S. Y. Yeung, M. Wong, H. S. Kwok, S. Zhang, and L. Lu, “Compact Integration of Hydrogen–Resistant a–InGaZnO and Poly–Si Thin–Film Transistors,” Micromachines, vol. 13, no. 6, p. 839, May 2022, DOI:10.3390/mi13060839.
    27. P. Wang, Y. Liu, Z. Xia, Y. Wang, X. Zhou, R. Shi, F. S. Y. Yeung, M. Wong, H. S. Kwok, S. Zhang, and L. Lu, “Self-Compensation Effect of Photo-Bias Instabilities in a-InGaZnO Thin-Film Transistors Induced by Unique Ion Migration,” IEEE Trans. Electron Devices, vol. 69, no. 6, pp. 3206–3212, Jun. 2022, DOI:10.1109/TED.2022.3170851.
    28. R. Shi, S. Wang, Z. Xia, L. Lu, and M. Wong, “Fluorinated Metal-Oxide Thin-Film Transistors for Circuit Implementation on a Flexible Substrate,” IEEE J. Flex. Electron., pp. 1–1, 2022, DOI:10.1109/JFLEX.2021.3140044.
    29. Wei Zhong, Jianfeng Zhang, Yuan Liu, Lijun Tan, Linfeng Lan, Sunbin Deng, Fion Sze Yan Yeung, Hoi Sing Kwok, and Rongsheng Chen, Gate Dielectric Treated by Self-Assembled Monolayers (SAMs) to Enhance the Performance of InSnZnO Thin-Film Transistors, IEEE Transactions on Electron Devices, 69(5): 2398-2403, 2022.
    30. Hui Li, Sunbin Deng, Yuming Xu, Wei Zhong, Dongxiang Luo, Guijun Li, Hoi Sing Kwok, Rongsheng Chen, A Differential Ring Oscillator with Tail Current Source Control Scheme Using N-Type Oxide TFTs, IEEE Transactions on Electron Devices, 69(4): 1870-1875, 2022.
    31. Weiwei Shi, Lizhi Hu, Yuan Liu, Sunbin Deng, Yuming Xu, Hoi-Sing Kwok, Rongsheng Chen, Arithmetic and Logic Circuits Based on ITO-Stabilized ZnO TFT for Transparent Electronics, Ieee Transactions on Circuits and Systems I-Regular Papers, 69(1): 356-365, 2022.
    32. Yawen Liu, Haoyu Liu, Wei Yuan, Yuhang Li, Junxue Li, Qiming Shao, Ran Cheng, and Jing Shi, Controlling antiferromagnetic magnon polarization by interfacial exchange interaction, Phys. Rev. Applied (2022)
    33. Quanjun Pan, Yuting Liu, Hao Wu, Peng Zhang, Hanshen Huang, Christopher Eckberg, Xiaoyu Che, Yingying Wu, Bingqian Dai, Qiming Shao, Kang L Wang, Efficient Spin‐Orbit Torque Switching of Perpendicular Magnetization using Topological Insulators with High Thermal Tolerance, Advanced Electronic Materials (2022)
    34. Qiming Shao, Zhongrui Wang, J Joshua Yang, Efficient AI with MRAM, Nature Electronics 5, 67–68 (2022)
    35. Laichuan Shen, Jing Xia, Zehan Chen, Xiaoguang Li, Xichao Zhang, Oleg A Tretiakov, Qiming Shao, Guoping Zhao, Xiaoxi Liu, Motohiko Ezawa, Yan Zhou, Nonreciprocal dynamics of ferrimagnetic bimerons, Phys. Rev. B 105, 014422 (2022)
    36. Zehan Chen, Xichao Zhang, Yan Zhou, Qiming Shao, Skyrmion Dynamics in the Presence of Deformation, Phys. Rev. Applied 17, L011002 (2022)
    37. Isaac Ng, Ruizi Liu, Zheyu Ren, Se Kwon Kim, Qiming Shao, Temperature dependence of the damping parameter in the ferrimagnet Gd3Fe5O12, IEEE Transactions on Magnetics, https://ieeexplore.ieee.org/document/9674918 (2022)
    38. Long-Range Charge Carrier Mobility in Metal Halide Perovskite Thin-Films and Single Crystals via Transient Photo-Conductivity” Lim, J.†; Kober-Czerny, Manuel†; Lin, Y.-H.; Ball, J. M.; Sakai, N.; Duijnstee, E. A.; Hong, M. J.; Labram, L. G.; Wenger, B.*; Snaith, H. J.* Nature Communications, 13, 4201, 2022.
    39. “Humidity‐Enabled Organic Artificial Synaptic Devices with Ultrahigh Moisture Resistivity”Li, J.; Qian, Y.; Li, W.*; Lin, Y.-H.; Qian, H.; Zhang, T.; Sun, K.; Wang, J.; Zhou, J.; Chen, Y.; Zhu, J.; Zhang, G.; Yi, M.*; Huang, W.* Advanced Electronic Materials, 2022.
    40. “Visualising Macroscopic Inhomogeneities in Perovskite Solar Cells” Dasgupta, A.†; Mahesh, S.†; Caprioglio, P.; Lin, Y.-H.; Zaininger, K.-A.; Oliver, R. D. J.; Holzhey, P.; Zhou, S.; McCarthy, M. M.; Smith, J. A.; Frenzel, M.; Christoforo, M. G.; Ball, J. M.; Wenger, B.; Snaith, H. J.* ACS Energy Letters, 7, 2311-2322, 2022.
    41. “Scalable Processing for Realizing 21.7%-Efficient All-Perovskite Tandem Solar Modules” Xiao, K.; Lin, Y.-H.; Zhang, M.; Oliver, R. D. J.; Wang, X.; Liu, Z.; Luo, X.; Li, J.; Lai, D.; Luo, H.; Lin, R.; Xu, J.; Hou, Y.; Snaith, H. J.*; Tan, H.*Science, 376, 762-767, 2022.
    42. “Insights Into the Charge Carrier Dynamics in Perovskite/Si Tandem Solar Cells Using Transient Photocurrent Spectroscopy”Ghorai, A.; Kumar, P.; Mahesh, S.; Lin, Y.-H.; Snaith, H. J.; Narayan, K. S.*Applied Physics Letters, 120, 173504, 2022.
    43. “Understanding and Suppressing Non-Radiative Losses in Methylammonium-Free Wide-Bandgap Perovskite Solar Cells”Oliver, R. D. J.†; Caprioglio, P.†; Peña-Camargo, F.; Buizza, L.; Zu, F.; Mahesh, S.; Ramadan, A. J.; Motti, S. G.; Mahesh, S.; McCarthy, M. M.; Warby, J. H.; Lin, Y.-H.; Koch, N.; Albrecht, S.; Herz, L. M.; Johnston, M. B.; Neher, D.; Stolterfoht, M.; Snaith, H. J.*Energy & Environmental Science, 15, 714-726, 2022.
    44. “A Tri-Channel Oxide Transistor Concept for the Rapid Detection of Biomolecules Including the SARS-CoV-2 Spike Protein”Lin, Y.-H.*†; Han, Y.†; Sharma, A.; AlGhamdi, W. S.; Liu, C.-H.; Chang, T.-H.; Xiao, X.-W.; Lin, W.-Z.; Lu, P.-Y.; Seitkhan, A.; Mottram, A. D.; Pattanasattayavong, P.; Faber, H.; Heeney, M.*; Anthopoulos, T. D.*Advanced Materials, 34, 2104608, 2022.
    45. “Emissive Charge-Transfer States at Hybrid Inorganic/Organic Heterojunctions Enable Low Non-Radiative Recombination and High-PerformancePhotodetectors”Eisner, F.*; Foot, G.; Yan, J.; Azzouzi, M.; Georgiadou, D. G.; Sit, W. Y.; Firdaus, Y.; Zhang, G.; Lin, Y.-H.; Yip, H.-L.; Anthopoulos, T. D.; Nelson, J.*Advanced Materials, 34, 2104654, 2022.
    46. “Impact of layer thickness on the operating characteristics of In2O3/ZnO heterojunction thin-film transistors” AlGhamdi, W. S.; Fakieh, A.; Faber, H.; Lin, Y.-H.; Lin, W.-Z.; Lu, P.-Y.; Liu, C.-H.; Salama, K. N.; Anthopoulos, T. D.*Applied Physics Letters, 121, 233503, 2022.
    47. Dong, H.; Tam, B. S. T.; Ding, L.; Dong, S.-C., Low-Temperature Vacuum Deposition of Green Phosphorescent OLED Devices Using Close-Space Sublimation of Spirobifluorene Hosts, Journal of Luminescence, 2022, 252, 119360.
    48. Liu,B.;Li,J.;Wang,G.;Ye,F.;Yan,H.;Zhang,M.;Dong,S.;Lu,L.; Huang, P.; He, T.; Xu, P.; Kwok, H.; Li, G. Lattice strain modulation towards efficient blue perovskite light-emitting diodes. Science Advances 2022, 8 (38), eabq0138.
    49. Feng,F.,etal., AlGaN-Based Deep-UV Micro-LED Array for Quantum Dots Converted Display With Ultra-Wide Color Gamut. IEEE Electron Device Letters, 2022. 43(1): p. 60-63.
    50. Feng, F., et al., AlGaN multiple quantum well deep-ultraviolet micro-light-emitting diodes for high color conversion efficiency quantum dots display. Journal of the Society for Information Display, 2022. 30(7): p. 556-566.
    51. Feng, F., et al., Enhancing the optical and electrical properties of AlGaN ultraviolet-C micro-LED via a hybrid scheme of plasma and chemical treatment. Applied Physics Letters, 2022. 121(22): p. 221104.
    52. Liu,Y.,et al., Analysis of size dependence and the behavior under ultrahigh current density injection condition of GaN-based Micro-LEDs with pixel size down to 3 μm. Journal of Physics D: Applied Physics, 2022. 55(31): p. 315107.
    53. Liu,Y.,et al., 4.4: Low Efficiency Attenuation and Stable Monochromaticity for Non-polar M-plane Micro-light-emitting-diodes (Micro-LEDs). SID Symposium Digest of Technical Papers, 2022. 53(S1): p. 62-65.
    54. Xinyi Yu, Valerii V. Vashchenko, Maksym F. Prodanov, Abhishek Kumar Srivastava*, Monomolecular Vertical Alignment Layer with Room Temperature Processibility for Flexible Liquid Crystal Displays, Journal of Molecular Liquid, 120535, 2022.
    55. Chengbin Kang, Zhicong Zhou, Jonathan E. Halpert, Abhishek K. Srivastava, Inkjet Printed Patterned Bank Structure with Encapsulated Perovskite Colour Filters for Modern Display, Nanoscale, 14, 8060-8068, 2022.
    56. Kumar Mallem, Maksym Prodanov, Chen Dezhang, Mikita Marus, Chengbin KANG, Sunil Shivarudraiah, Valeri Vaschenko, Jonathan Halpert, Abhishek K. Srivastava, Solution Processed Red, Green, and Blue Quantum Rod Light Emitting Diodes, ACS Applied Materials & Interfaces, 14, 16, 18723, 2022.
    57. Zhengnan Yuan, Zhibo SUN, Xinyi Yu, Cheng Ming, Yuechu Cheng, Anran Li, Valerii Vashchenko, Hoi Sing Kwok, Abhishek Kumar Srivastava, Microsecond High-contrast Continuous 2.25π Phase Modulation Based on Non-linear Kerr Effect of VADHFLC, J. the Society for Information Display, 30, 5, 404-412, 2022.
    58. Yiyang Gao, Maksym F. Prodanov, Chengbin Kang, Valerii V. Vashchenko, Abhishek K. Srivastava, “Inkjet Printed, Flexible Full-Color Photoluminescence Type Color Filters for Displays” Adv. Engg. Material, 2101553, 2022.
    59. Maksym F. Prodanov, Chengbin Kang, Swadesh K. Gupta, Valerii V. Vashchenko, Uhao Li, Minchao Qin, Xinhui Lu, and Abhishek K. Srivastava, Unidirectionally Aligned Bright Quantum Rods Films, Using T-shape Ligands, for LCD Application, Nano Research, https://doi.org/10.1007/s12274-021-4019-2, 2022
    60. Xincheng Zhang, Meng Zhang*, Yan Yan, Ye Zhou, Man Wong, and Hoi-Sing Kwok, “Effect of Interface Modification Conditions on Electrical Characteristics and Device Consistency of OrganicThin Film Transistors”, IEEE Electron Device Lett., vol. 43, pp. 36-39, 2022.
    61. Yuyang Yang, Meng Zhang*, Lei Lu, Man Wong, and Hoi-Sing Kwok, “Low-Frequency Noise in Bridged-Grain Polycrystalline Silicon Thin-Film Transistors”, IEEE Transactions on Electron Devices,vol. 69, pp.1984-1988, 2022.
    62. Zhiying Chen, Meng Zhang*, Sunbin Deng, Zhendong Jiang, Yan Yan, Suting Han, Ye Zhou, Man Wong, and Hoi-Sing Kwok, “Effect of Moisture Exchange Caused by Low-Temperature Annealing on Device Characteristics and Instability in InSnZnO Thin-Film Transistors”, Adv. Mater. Interfaces, vol. 9, pp. 2102584, 2022.
    63. Zhendong Jiang, Meng Zhang*, Sunbing Deng, Yuyang Yang, Man Wong, and Hoi-Sing Kwok, “Evaluation of Positive-Bias-Stress-Induced Degradation in InSnZnO Thin-Film Transistors by Low Frequency Noise Measurement”, IEEE Electron Device Lett., vol. 43, pp. 886-889, 2022.


    Conference Papers

    1. Zhihua Xiao, Vinayak Bharat Naik, Shun Kong Cheung, Jia Hao Lim, Jae-Hyun Kwon, Zheyu Ren, Zhongrui Wang, and Qiming Shao, Device Variation-Aware Adaptive Quantization for MRAM-based Accurate In-Memory Computing Without On-chip Training, IEEE International Electron Devices Meeting (Dec. 2022)
    2. C. Zhang, F. Chen and C. P. Yue, "A 56-Gb/s PAM-4 Transmitter Using Silicon Photonic Microring Modulator in 40nm CMOS," in 2022 IEEE 65th International Midwest Symposium on Circuits and Systems (MWSCAS), Fukuoka, Japan, 2022, pp. 1-4.
    3. D. Lin, R. Shi, M. Wong, and K. Chau, “Metal-Oxide Thin-Film Transistor for Monolithic Integration with High-Pressure MEMS Pressure Sensor,” in 2022 IEEE 35th International Conference on Micro Electro Mechanical Systems Conference (MEMS), 2022, pp. 672–675.
    4. T. Lei, Y. Hu, and M. Wong, “Active-Matrix Tactile Sensor Array Based on the Monolithic Integration of Pvdf and Dual-Gate Transistors,” in 2022 IEEE 35th International Conference on Micro Electro Mechanical Systems Conference (MEMS), 2022, pp. 71–74.
    5. R. Shi and M. Wong, “43.4: Temperature Sensor Based on a Pseudo‐E Inverter Built with Metal‐Oxide Thin‐Film Transistors,” SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 443–446, Oct. 2022, DOI:10.1002/sdtp.15980.
    6. Y. Wang, Z. Xia, and M. Wong, “P‐4.1: Dual‐Gate Indium‐Gallium‐Zinc Oxide Thin‐Film Transistor with an Inserted Top Gate,” SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 753–755, Oct. 2022, DOI:10.1002/sdtp.16082.
    7. Y. Hu, T. Lei, and M. Wong, “Parallel Dual-Gate Thin-Film Transistors for Sensing and Neuromorphic Computing,” in 2022 IEEE 16th International Conference on Solid-State & Integrated Circuit Technology (ICSICT), 2022, pp. 1–4.
    8. Z. Zhou, Y. Hu, R. Shi, S. Wang, Z. Xia, and M. Wong, “P‐23: A Monolithically Integrated Artificial Compound Eye for Proximity Pattern Recognition,” SID Symp. Dig. Tech. Pap., vol. 53, no. 1, pp. 1122–1125, Jun. 2022, DOI:10.1002/sdtp.15698.
    9. S. Wang, Z. Sun, Z. Xia, Z. Yuan, L. Lu, A. K. Srivastava, H. S. Kwok, and M. Wong, “P‐21: Student Poster: Indium‐Gallium‐Zinc Oxide Thin‐Film Transistors for High‐Resolution Active‐Matrix Ferroelectric Liquid‐Crystal Displays,” SID Symp. Dig. Tech. Pap., vol. 53, no. 1, pp. 1114–1117, Jun. 2022, DOI:10.1002/sdtp.15696.
    10. Y. Wang, Z. Xia, and M. Wong, “P‐4.1: Dual‐Gate Indium‐Gallium‐Zinc Oxide Thin‐Film Transistor with an Inserted Top Gate,” SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 753–755, Oct. 2022, DOI:10.1002/sdtp.16082.
    11. S. Wang, Z. Xia, Z. Sun, Z. Yuan, L. Lu, A. K. Srivastava, H. S. Kwok, and M. Wong, “43.3: Metal‐Oxide Thin‐Film Transistors for Driving High‐Resolution Active‐Matrix Ferroelectric Liquid‐Crystal Displays,” SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 442–442, Oct. 2022, DOI:10.1002/sdtp.15979.
    12. F. Liu, Y. Zhou, X. Zhou, H. Yang, Z. Xia, F. S. Yan Yeung, M. Wong, H. S. Kwok, S. Zhang, and L. LU, “P‐1.5: Dynamic Current Stress‐Induced Instabilities of a‐InGaZnO TFTs,” SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 584–587, Oct. 2022, DOI:10.1002/sdtp.16031.
    13. Dong, S.-C.; Deng, S.; Yang, J.; Jiang, Y.; Tang, C. W., 3-inch, 3000-ppi Silicon Nitride Masks for Direct Patterning of OLED Microdisplays. ICDT, 2022, 34.4.

    1. Micro-/nano-structured anti-biofilm surfaces, Inventors: Gary Shun Pan Cheung, James Kit Hon Tsoi, Xin Li, Zhiyong Fan, Hoi Kwong Tsui; Application Date: 2020.04.14; Publication Date: 2022.11.10; Publication Number: US20220355350A1. (Granted, USA)
    2. Nanotube array gas sensor; Inventors: Zhiyong Fan, Jiaqi Chen; Application Date: 2019.04.29; Application granted Date: 2022.10.11; Publication Number: US11467109B2. (Granted, USA)
    3. 对包含磁性隧道结的器件或电路进行仿真的方法和系统,香港科技大学,中国,202211409733.1,2022-11-10,国家知识产权局 (Granted, China) 4. Chik Patrick Yue and Li Wang, “Pam-4 receiver with jitter compensation clock and data recovery,” U.S. Patent No. 17744743, Dec. 01, 2022 (Granted, USA)
    5. Chongyun Zhang and Chik Patrick Yue, “A PAM-4 receiver with adaptive equalization configuration,” Chinese Patent No. 202211124241.8, under review, Sept. 15, 2022. (Filed, USA)
    6. 中國專利 申請號 202210578775.1 電子書、用於顯示該電子書的方法和設置 (Filed, China)
    7. ZL 2018 11079500.3 制作具有连续变化的取向方向的光取向层的方法(Granted, China)
    8. ZL 2018 10809023.5 用于制备液晶器件的光配向的垂直配向层的混合物和方法(Granted, China)
    9. ZL 2018 10840292.8 一种高光效低偏色的液晶光配向层的制备方法(Granted, China)
    10. G. Li, K.W. Lee, Y. Xu, Q. Yuan, C. Mu, An integrative system for food 3D printing and multi-level cooking, US provision No. 63416931, 2022 (Filed, USA)
    11. G. Li, Y. Xu, K.W. Lee, A. Chin, L. Poon, Ultrafast, Portable, Flexible, and Efficient Smart Heater for Face Mask Sterilization, US provision No. 63325601, 2022 (Filed, USA)
    12. K Chau, M Wong” Pressure gauge chip and manufacturing process thereof ” US patent 11,255,740 (Granted, USA)
    13. Y Zhang, F Zeng, M Wong, K Chau “Method of making a dual-cavity pressure sensor die” US patent 11,226,251 (Granted, USA)
    14. CN201980004382.6 于2023-01-10 授权公开 Thin Film Polarizer Using Azo-dyes and Methods of Preparation Thereof 一种使用偶氮染料的薄膜偏光片的制备方法 V. Vashchenko, Kwok Hoi Sing, O. Vashchenko, Meng Cuiling. (Granted, China)
    15. [CN]ZL202121329665.9 A Thin Film Composite Polarizer and a Device Comprising the Same 一种复合薄膜偏光片以及包括其的显示器件 Shu Tuen TANG, Man Chun TSENG, Yiyang GAO, Jianwen Zhong, Hoi Sing Kwok, (Granted, China)
    16. [CN]ZL202111199653.8 一种低雾度薄膜偏光片及其制备方法 Shu Tuen TANG, Man Chun TSENG, Yiyang GAO, Valarii, Vashchenko, Hoi Sing Kwok (Granted, China)
    17. CN114195615A, 吸收光的主体材料、组合物、光学膜、其制备方法以及光电装置, 董首成,姜毅斌,邓清云。(Granted, China)


 

  
 

 

 

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