张敏

职称 副教授 电话 0755-26032482
办公室 A425 Email zhangm@ece.pku.edu.cn
研究方向 柔性可拉伸电子及可穿戴器件、碳基纳米电子、生物电子集成、类神经突触器件、先进显示及芯片。 实验室网站 http://web.pkusz.edu.cn/nel

导师与研究领域、方向:

张敏,十大网赌平台深圳研究生院十大网赌正规信誉网址副教授,博士生导师,深圳市海外高层次人才“孔雀计划”B 类人才,薄膜晶体管与先进显示实验室副主任。国际电气与电子工程师学会 IEEE 高级会员,国际信息显示学会 SID 会员,多个国际知名学术期刊审稿人。香港科技大学电子及计算机工程学系博士,西安交通大学微电子系硕士及学士。2006 年博士毕业加入香港半导体业界从事集成电路先进器件的设计开发;2012 年加入十大网赌正规信誉网址。作为项目主持人承担和完成国家重点研发计划课题、国家自然科学基金、深圳市科创委创新创业专项、基础研究布局项目等10余项。作为课题第二负责人或项目骨干,参与国家重大专项课题、国家重点研发计划、广东省重点科技项目等多项。已发表学术论文130余篇,专利授权15项。多次受邀担任国际会议组委、分会场主席和邀请报告。2015年获十大网赌平台校级优秀班主任,2022年获十大网赌平台教学优秀奖等奖励。

目前主要研究课题包括:柔性与可拉伸电子(器件与电路集成)、碳基纳米电子(器件与机理)、生物电子集成(生物传感器及系统集成)、类神经突触器件(器件与应用集成)、可穿戴器件(类皮肤传感器及能源器件)、先进显示(微显示VR芯片及柔性显示)。

目前主持的主要科研项目:

1. 国家重点研发计划(课题负责人);

2. 国家自然科学基金—面上项目;

3. 深圳市基础研究(学科布局)项目;

4. 深圳市高等院校稳定支持计划—重点项目;

5. 企业合作项目。


已主持完成的主要科研项目:

    1. 国家自然科学基金—青年科学基金项目;

    2. 深圳市基础研究(学科布局)项目;

    3. 深圳市海外高层次人次创新创业项目(孔雀技术创新);

    4. 深圳市基础研究(自由探索)项目多项;

    5. 深圳市战略性新兴产业发展专项资金项目;

    6. 企业合作项目。

目前参与的主要科研项目:

    1. 国家重点研发计划项目;

    2. 广东省省级科技计划项目;

    3. 深圳市重点实验室项目。

主要代表性成果:

BOOK CHAPTERS

1. C. Yang, C. Zhou, M. Zhang, Nanocarbon Electronics, Jenny Stanford Publishing, July 31, 2020, ISBN 9789814877114.

2. M. Zhang, C. Du, Q. Huang, Z. Liao, Y. Deng, W. Huang, and X. Wang, Chapter Carbon Nanotube Transistors in Nanocarbon Electronics, Jenny Stanford Publishing, 2020.

3. M. Zhang, S. Zhang, M. Zhang, Q. Huang, C. Xie, and N. Li, Chapter Graphene Transistors in Nanocarbon Electronics, Jenny Stanford Publishing, 2020.

4. Y. Chai, M. H. Sun, Z. Y. Xiao, Y. Li, M. Zhang, Philip C. H. Chan, Chapter Aligned Carbon Nanotubes for Interconnect Application, Carbon Nanotube and Graphene, CRC press, 2013.


IMPORTANT TALKS

1. M. Zhang, “可拉伸多模态神经形态电子器件,” 2022柔性光电材料与智能传感发展论坛Shenzhen, China, Nov 19-Nov 21, 2022.

2. M. Zhang, “可拉伸神经形态电子, 2022海峡两岸暨港澳青年科学家智能可穿戴技术创新论坛Hangzhou, China, Nov 5-Nov 7, 2022.

3. M. Zhang, “Stretchable synaptic transistors based on carbon nanotubes,” IEEE国际柔性电子技术会议 (IFETC), Qingdao, China, Aug 21-24, 2022.

4. M. Zhang, “软性薄膜晶体管及神经突触器件,” 2021海峡两岸暨港澳青年科学家智能可穿戴技术创新论坛Suzhou, China, Oct 30-Nov 1, 2021.

5. M. Zhang, “All-Carbon Flexible and Stretchable Thin Film Transistors for Integration”, 16th International Transistor Conference, Shanghai, China, Oct 20-22, 2021.

6. M. Zhang, “碳纳米管基的本征可拉伸薄膜晶体管, 2020海峡两岸暨港澳青年科学家智能可穿戴技术创新论坛Shenzhen, China, Dec 14, 2020.

7. M. Zhang, "High-Performance Intrinsically Soft Thin Film Transistors," 2020 International Conference on Computer Aided Design for Thin-Film Transistor Technologies (Virtual Conference), Nov 9-10, 2020

8. M. Zhang, "A dual-gate IGZO Source-Gated transistor based on field modulation by TCAD simulation," 2020 IEEE International Conference on Solid-State & Integrated Circuit Technology, Kunming, China, Nov 3-6, 2020.

9. M. Zhang, "Applying Viscous Shear Stress to Align Single-Walled Carbon Nanotubes," EDTM Technical Digest, IEEE Electron Devices Technology and Manufacturing (EDTM) Conference, Penang, Malaysia, April 6-21, 2020.

10. M. Zhang, "Flexible and Stretchable Devices based on Carbon Materials,"(基于碳纳米材料的柔性和可拉伸器件), 2019深港澳微米纳米技术创新论坛Shenzhen, China, Dec 21, 2019.

11. M. Zhang, C. Du, Z. Zhang, Q. Huang, J. Zhang, Q. Wang, H. Jiao, " Carbon Based Integratable Soft Thin Film Transistors, " Conference on Organic Field Effect Transistor, Shenzhen, China, Dec 12-15, 2019.

12. M. Zhang, C. Du, J. Zhang, Z. Zhang, Q. Wang, Q. Huang, "Carbon Based Thin Film Transistors for Advanced Displays," International Meeting on Information Display, Gyeongju, Korea, Aug 27-30, 2019.

13. M. Zhang, "Carbon Based Wearable Devices for Soft Electronics," IEEE International Conference on Nanotechnology, Macau, China, Jul 22-26, 2019.

14. M. Zhang, "Carbon Based Flexible and Stretchable Devices for Wearable System," the International Symposium of Flexible and Stretchable Electronics 2019, Shenzhen, China, Jun 29-30, 2019.

15. M. Zhang, "Carbon based devices for flexible wearable systems," IEEE International Conference on Electron Devices and Solid-State Circuits, Xi'an, China, Jun 12-14, 2019.

16. M. Zhang, Q. Wang, Q. Huang, Z. Liao, C. Du, "Asymmetric Langmuir-Blodgett and Hydrophilization Process to Realize Density-Controllable Carbon Nanotube Array on Flexible and Stretchable Substrates," IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Bangkok, Thailand, 11-14 April 2019.

17. M. Zhang, C. Du, J. Zhang, Z. Zhang, Q. Wang, Q. Huang, "Carbon Based Thin Film Transistors for High Drivability and High Flexibility," International Conference on Display Technology, Kunshan, China, Mar 26-29, 2019.

18. M. Zhang, Y. Deng, H. Wang, S. Zhang, K. Zhu, C. Du, Y. Gao, "Carbon Based TFTs and Stretchable Devices, " the International Conference on Computer Aided Design for Thin-Film Transistor Technologies, Shenzhen, China, Nov 16-18, 2018.

19. M. Zhang, S. Zhang, L. Wen, H. Wang, K. Zhu, C. Xie, "Carbon-Ecoflex Nanofins for High Linearity Strain Sensor, " the Annual Joint Workshop on Advanced Electronic Technology and Application, Jeju, Korea, Oct. 2018.

20. M. Zhang, S. Zhang, H. Wang, Y. Deng, K. Zhu, C. Du, Y. Gao, "Carbon Based Flexible and Stretchable Electronic Devices, " The International Conference on Computer Aided Design for Thin-Film Transistor Technologies, Cambridge, UK, Jun. 2017.


SELECTED JOURNAL PUBLICATIONS

1. Y. Huang1, D. Liu1, X. Gao, J. Zhu, Y. Zhang, M. Zhang*, "Flexible liquid-based continuous direct-current tribovoltaic generators enable self-powered multi-modal sensing," Advanced Functional Materials, P.2209482022.

2. Y. Zhang, D. Liu, Q. Huang, Q. Ren, L. Fan, C. Du, S. Zhang, and M. Zhang*, "Mixed-Dimensional van der Waals Engineering for Charge Transfer Enables Wafer-Level Flexible Electronics," Advanced Functional Materials, vol. 32, no. 36, P.2205111, 2022.

3. Y. Huang, D. Liu, T. Zhu, Y. Zhang, L. Fan, J. Liu*, M. Zhang*, "A Mechanically Tunable Electromagnetic Wave Harvester and Dual-modal Detector based on Quasi-static van der Waals Heterojunction," Nano Energy, vol. 99, 2022.

4. Y. Wang, D. Liu, Y. Zhang, L. Fan, Q. Ren, S. Ma, and M. Zhang*, "Stretchable Temperature-Responsive Multi-Modal Neuromorphic Electronic Skin with Spontaneous Synaptic Plasticity Recovery," ACS Nano, vol. 16, no. 5, pp. 8283-8293, 2022.

5. S. Ma1, Y. Zhang1, Q. Ren, X. Wang, J. Zhu, F. Yin, *, Z. Li*, M. Zhang*, "Tetrahedral DNA nanostructure based biosensor for high-performance detection of circulating tumor DNA using all-carbon nanotube transistor," Biosensors and Bioelectronics, vol. 197, p. 113785, 2022.

6. Q. Huang1, J. Wang1, C. Li, J. Zhu, W. Wang, Y. Huang, Y. Zhang, H. Jiao, S. Zhang, H. Meng, M. Zhang*, X. Wang*, "Intrinsically flexible all-carbon-nanotube electronics enabled by a hybrid organic-inorganic gate dielectric" NPJ FLEXIBLE ELECTRONICS, vol. 6, no. 1, p. 61, 2022.

7. Z. Zhang, C. Xie, J. Zhang, M. Chan and M. Zhang*, "Tunable stretchable strain sensors enabled by patterned Ecoflex-vertical aligned carbon nanotube arrays and pre-stretching transfer," Carbon, vol. 197, pp. 218-225, 2022.

8. Q. Ren1, Y. Zhang1, S. Ma, X. Wang, K-C Chang, Y. Zhang, F. Yin*, Z. Li*, M. Zhang*, "Low-temperature supercritical activation enables high-performance detection of cell-free DNA by all-carbon-nanotube transistor," Carbon, vol. 196, no. 30, pp. 120-127, 2022.

9. W. Huang, Y. Wang, Y. Zhang, J. Zhu, D. Liu, J. Wang, L. Fan, R. Qiu, M. Zhang*, "Intrinsically stretchable carbon nanotube synaptic transistors with associative learning ability and mechanical deformation response," Carbon, vol.189, pp. 386-394, 2022.

10. J. Wang, J. Wang, J. Zhang, W. Huang, X. Wang, M. Zhang*, "Ultralow-Power Synaptic Transistors Based on Ta2O5/Al2O3 Bilayer Dielectric for Algebraic Arithmetic," Advanced Electronic Materials, vol. 8, no. 5, p. 2100922, 2022.

11. J. Zhang, M. Zhang*, K-C Chang, Z. Rong, Y. Zhang, S. Zhang, and M. Chan, "Analysis of Carrier Behavior for Amorphous Indium Gallium Zinc Oxide After Supercritical Carbon Dioxide Treatment," Advanced Materials Interfaces, vol. 9, no. 14, p. 2102349, 2022.

12. Y. Zhang, Q. Huang, W. Huang, and M. Zhang*, "Ultra-flexible high-k transparent integratable fully-carbon-based capacitor arrays for sharp-switching transistors," Carbon, vol. 182, pp. 117-123, 2021.

13. X. Wang, K.-C. Chang, Z. Zhang, Q. Liu, L. Li, S. Ma, and M. Zhang*, "Performance enhancement and mechanism exploration of all-carbon-nanotube memory with hydroxylation and dehydration through supercritical carbon dioxide," Carbon, vol. 173, pp. 97-104, 2021.

14. J. Zhang, W. Huang, K.-C. Chang, Y. Shi, C. Zhao, X. Wang, H. Meng, S. Zhang, and M. Zhang*, "Performance Enhancement and Bending Restoration for Flexible Amorphous Indium Gallium Zinc Oxide Thin-Film Transistors by Low-Temperature Supercritical Dehydration Treatment," ACS Applied Materials & Interfaces, vol. 13, no. 7, pp. 8584-8594, 2021.

15. Y. Wang, W. Huang, L. Fan, Z. Zhang, Q. Huang, J. Wang, Y. Zhang, and M. Zhang*, "Ultralow-power Flexible Transparent Carbon Nanotube Synaptic Transistors for Emotional Memory," Nanoscale, vol. 13, no. 26, pp. 11360-11369, 2021. (Cover Paper

16. L. Fan, Q. Wang, Q. Huang, W. Huang, D. Liu, S. Ma, M. Zhang*, "Stretchable carbon nanotube thin-film transistor arrays realized by a universal transferable-Band-Aid method," IEEE Transactions on Electron Devices, vol. 68, no. 11, pp. 5879 - 5885, 2021.

17. J. Wen, C. Li, J. An, Z. Peng, H. Lin, M. Zhang*, and S. Zhang, "High-Speed Low-Power Rail-to-Rail Buffer using Dynamic-Current Feedback for OLED Source Driver Applications," Analog Integrated Circuits and Signal Processing, vol.110, pp. 115-125, 2021.

18. J. Zhu, C. Zhou, M. Zhang*, "Recent progress in flexible tactile sensor systems: from design to application," Soft Science, pp:1-3, 2021.

19. W. Huang, H. Jiao, Q. Huang, J. Zhang, and M. Zhang*, "Ultra-high drivability, high-mobility, low-voltage and high-integration intrinsically stretchable transistors," Nanoscale, vol. 12, no. 46, pp. 23546-23555, 2020.Cover Paper

20. Z. Zhang, C. Du, H. Jiao, and M. Zhang*, "Polyvinyl Alcohol/SiO2 Hybrid Dielectric for Transparent Flexible/Stretchable All-Carbon-Nanotube Thin-Film-Transistor Integration," Advanced Electronic Materials, vol. 6, no. 5, p. 1901133, 2020.Cover Paper

21. C. Xie, M. Zhang*, W. Du, C. Zhou, Y. Xiao, S. Zhang, and M. Chan, "Sensing-range-tunable pressure sensors realized by self-patterned-spacer design and vertical CNT arrays embedded in PDMS," RSC Advances, vol. 10, no. 55, pp. 33558-33565, 2020.

22. H. Jiao, M. Zhang*, C. Du, Z. Zhang, W. Huang, and Q. Huang, "Intrinsically stretchable all-carbon-nanotube transistors with styrene–ethylene–butylene–styrene as gate dielectrics integrated by photolithography-based process," RSC Advances, vol. 10, no. 14, pp. 8080-8086, 2020.

23. C. Luo, S. Long, G. Liu, Cooper, M. Zhang*, and F. Ai*, "Optimized optical design of thin-film transistor arrays for high transmittance and excellent chromaticity," Frontiers of Materials Science, vol. 14, no. 1, pp. 89-95, 2020.

24. B. Zha, M. Tang, J. Li, H. Chen, and M. Zhang*, "Effect of organic nano-pigments on contrast ratio of color filters," Chinese Journal of Liquid Crystals and Displays, vol. 35, no. 1, pp. 26-30, 2020.

25. C. Du, M. Zhang*, Q. Huang, S. Zhang, and Y. Chai, "Ultralow-voltage all-carbon low-dimensional-material flexible transistors integrated by room-temperature photolithography incorporated filtration," Nanoscale, vol. 11, no. 32, pp. 15029-15036, 2019. Cover Paper

26. W. Li, Y. Gao, J. Zhang, X. Wang, F. Yin*, Z. Li, and M. Zhang*, "Universal DNA detection realized by peptide based carbon nanotube biosensors," Nanoscale Advances, vol. 2, no. 2, pp. 717-723, 2020.

27. J. Zhang, M. Zhang*, C. Du, S. Zhang, Z. Liao, Z. Rong, and L. Zhang, "Design and Mechanism of Embedding Specific Carbon Nanotubes in Sputtered Sandwiched InGaZnO Thin-Film Transistors," IEEE Electron Device Letters, vol. 40, no. 3, pp. 407-410, 2019.

28. Z. Zhang, M. Zhang*, C. Du, L. Li, and K.-c. Chang, "Improving Performance of All-Carbon-Nanotube Thin-Film Transistors by Low Temperature Supercritical CO2 Fluid Activation," IEEE Electron Device Letters, vol. 40, no. 6, pp. 921-924, 2019.

29. B. Zha, J. Li, J. Wu, X. Miao*, and M. Zhang*, "Cooperation and competition of hydrogen and halogen bonds in 2D self-assembled nanostructures based on bromine substituted coumarins," New Journal of Chemistry, vol. 43, no. 44, pp. 17182-17187, 2019.

30. Q. Wang, M. Zhang*, Q. Huang, Z. Liao, and C. Du, "Realizing Controllable Carbon Nanotube Arrays for Soft Devices by Asymmetric Langmuir–Blodgett and Hydrophilization Process," IEEE Transactions on Nanotechnology, vol. 18, pp. 1144-1147, 2019.

31. C. Luo, G. Liu, and M. Zhang*, "Electric-field-induced microstructure modulation of carbon nanotubes for high-performance supercapacitors," Frontiers of Materials Science, vol. 13, no. 3, pp. 270-276, 2019.

32. S. Zhang, L. Wen, H. Wang, K. Zhu, and M. Zhang*, "Vertical CNT–Ecoflex nanofins for highly linear broad-range-detection wearable strain sensors," Journal of Materials Chemistry C, vol. 6, no. 19, pp. 5132-5139, 2018. Cover Paper

33. K. Zhu, L. Wen, and M. Zhang*, "A Carbon Nanotube Electrode a-IGZO-TFT," IEEE journal of the Electron Devices Society, vol. 5, no. 5, pp. 411-415, 2017.

34. H. Lin, W. C. Chan, W. K. Lee, Z. Chen, M. Chan, and M. Zhang*, "High-Current Drivability Fibonacci Charge Pump with Connect–Point–Shift Enhancement," IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 25, no. 7, pp. 2164-2173, 2017.

35. H. Lin, H. Cao, Z. Chen, W. C. Chan, W. K. Lee, and M. Zhang*, "Leakage current elimination for Dickson charge pump with a linear regulator," Microelectronics Journal, vol. 64, pp. 29-34, 2017.

36. F. Yuan, Y. Deng, W. Zhou*, M. Zhang*, and Z. Li*, "A simple and novel method for the quantitative detection of 5-hydroxymethylcytosine using carbon nanotube field-effect transistors," Nano Research, vol. 9, no. 6, pp. 1701-1708, 2016.

37. H. Wang, M. Shi, K. Zhu, Z. Su, X. Cheng, Y. Song, X. Chen, Z. Liao, M. Zhang*, and H. Zhang*, "High performance triboelectric nanogenerators with aligned carbon nanotubes," Nanoscale, vol. 8, no. 43, pp. 18489-18494, 2016.

38. H. Lin, W. C. Chan, W. K. Lee, Z. Chen, M. Chan, and M. Zhang*, "A High Conversion Ratio Component-Efficient Charge Pump for Display Drivers," Journal of Display Technology, vol. 12, no. 10, pp. 1057-1063, 2016.

39. Y. Deng, M. Zhang*, F. Yuan, Z. Li*, and W. Zhou, "Uniform DNA Biosensors Based on Threshold Voltage of Carbon Nanotube Thin-Film Transistors," Nano, vol. 11, no. 5, p. 1650060, 2016.

40. H. Lin, C. Chan Wing, K. Lee Wai, Z. Chen, and M. Zhang*, "Dickson Charge Pump with Gate Drive Enhancement and Area Saving," Journal of Power Electronics, vol. 16, no. 3, pp. 1209-1217, 2016.

41. H. Lin, Z. Chen, W. Chan, W. Lee, and M. Zhang*, "Leakage Current Improvement for a Voltage Doubler Charge Pump," Journal of Low Power Electronics, vol. 12, no. 3, pp. 227-233, 2016.

42. Y. Wu, X. Lin, and M. Zhang*, "Carbon Nanotubes for Thin Film Transistor: Fabrication, Properties, and Applications," Journal of Nano materials, vol. 2013, p. 627215, 2013.

43. M. Zhang*, P. C. H. Chan, Y. Chai, Q. Liang, and Z. K. Tang, "Novel Local Silicon-Gate Carbon Nanotube Transistors Combining Silicon-on-Insulator Technology for Integration," IEEE Transactions on Nanotechnology, vol. 8, no. 2, pp. 260-268, 2009.

44. M. Zhang*, X. Huo, P. C. H. Chan, Q. Liang, and Z. K. Tang, "Radio-frequency transmission properties of carbon nanotubes in a field-effect transistor configuration," IEEE Electron Device Letters, vol. 27, no. 8, pp. 668-670, 2006.

45. M. Zhang*, P. C. H. Chan, Y. Chai, Q. Liang, and Z. Tang, "Local silicon-gate carbon nanotube field effect transistors using silicon-on-insulator technology," Applied Physics Letters, vol. 89, no. 2, p. 023116, 2006.

46. M. Zhang*, X. Huo, P. C. H. Chan, Q. Liang, and Z. Tang, "Radio-frequency characterization for the single-walled carbon nanotubes," Applied Physics Letters, vol. 88, no. 16, p. 163109, 2006.


SELECTED CONFERENCE PUBLICATIONS

1. Q. Ren, S. Ma, X. Wang, Y. Zhang and M. Zhang*, "Mechanism Exploration of Enhanced Biosensing Performance for All-Carbon-Nanotube Thin-Film Transistors," IEEE Nanotechnology Materials and Devices Conference, Nanjing, China, Nov. 18-20, 2022.

2. R. Qiu, Q. Ren, Q. Liu, L. Lu and M. Zhang*, " An etching-free method for patterning carbon nanotube films enabled by universal wettability modulations," IEEE Nanotechnology Materials and Devices Conference, Nanjing, China, Nov. 18-20, 2022.

3. Q. Ren1, S. Ma1 and M. Zhang*, "Tetrahedral DNA Nanostructure Based All-Carbon-Nanotube Transistor Biosensor for High-Performance Detection of Circulating Tumor," iCANX-SUMMIT, Wuhan, China, April 26-29, 2022. (Outstanding Student Paper: Second Prize)

4. D. Liu, W. Huang, Q. Ren, M. Zhang*, "A Photoinduced Electrostatic Doping Effect in Carbon Nanotube Field-Effect Transistors," 21th IEEE International Conference on Nanotechnology, Virtual, Online, July 28-30, 2021.

5. Y. Huang, S. Ma, J. Zhang, C. Xie, and M. Zhang*, "Modulating the Electrical Transport Characteristics of a Metal-Semiconductor-Metal Structure by Local Strain Gradient," 16th IEEE International Conference on Nano/Micro Engineered & Molecular Systems (NEMS), Xiamen, China, April 25-29, 2021.

6. C. Li, D. Zhang, W. Zeng, H. Lin, and M. Zhang*, "A High Current-Drive, Step-Up Capacitive Power Converter for Display Driver," SID Symposium Digest of Technical Papers, Virtual, Online, Aug 3-7, 2020.

7. Y. Sun*, J. Fan, Y. Yin, M. Liu, P. Jiang, L. Zhang, B. Jiang, C. Yuan, M. Zhang*, S.-j Chen, C.-Y Lee, and X. Zhang, "High Transparent, Ultrathin Flexible, Full color MiniLED Display with IGZO TFT substrate," SID Symposium Digest of Technical Papers, Virtual, Online, Aug 3-7, 2020.

8. Y. Zhang*, W. Cao, Q. Zhang, Y. Zhang, Z. Huang, Y. Lin, J. Xiao, and M. Zhang*, "Curing Mechanism and Optimal Solution for Interior Disclination in Ultrahigh-definition 2-domain VA LCD," SID Symposium Digest of Technical Papers, Virtual, Online, Aug 3-7, 2020.

9. Y. Zhang*, W. Cao, Q. Zhang, Y. Zhang, Y. Lin, J. Xiao, and M. Zhang*, "Novel Pixel Design for Transmittance and Picture Quality Improvement," SID Symposium Digest of Technical Papers, Virtual, Online, Aug 3-7, 2020.

10. Y. Sun*, J. Fan, B. He, M. Zhang*, S. Chen, X. Zhang*, C. Lee, and Q. Fang, "A Full-Color Micro LEDs Display Based on IGZO TFT," 2020 IEEE 3rd International Conference on Electronics Technology (ICET), Chengdu, China, May 8-12, 2020.

11. N. Li, Z. Rong, L. Zhang*, and M. Zhang*, "A dual-gate IGZO Source-Gated transistor based on field modulation by TCAD simulation," 2020 IEEE 15th International Conference on Solid-State & Integrated Circuit Technology (ICSICT), Kunming, China, Nov 3-6, 2020.

12. Y. Wang, Y. Gao, W. Li, M. Zhang*, J. Zhang, Q. Wang, Z. Zhang, and Z. Li*, "Applying Viscous Shear Stress to Align Single-Walled Carbon Nanotubes," 4th IEEE Electron Devices Technology and Manufacturing (EDTM) Conference, Penang, Malaysia, April 6-21, 2020.

13. Q. Huang, Q. Wang, Z. Liao, C. Du, and M. Zhang*, "Integration and Characterization of Transparent Thin Film Transistors with Carbon Nanotubes as Aligned Channel and Electrodes," 2019 IEEE 19th International Conference on Nanotechnology (IEEE-NANO), Macao, China, July 22-26, 2019.

14. D. Zhang, W. Zeng, H. Lin, J. Wen, C. Li, and M. Zhang*, "Efficiency Enhancement by Non-Overlapping Time Design and Adaptive Ratio Control for Charge Pump of Display Drivers,"SID Symposium Digest of Technical Papers, Virtual, Online, May 12-17, 2019.

15. W. Zeng, C. Li, D. Zhang, J. Huang, J. Wen, B. Liu, H. Lin, S. Zhang, and M. Zhang*, "A Novel Pixel Circuit with Threshold Voltage Variation Compensation in Three-Dimensional AMOLED on Silicon Microdisplay," SID Symposium Digest of Technical Papers, Virtual, Online, May 12-17, 2019

16. Y. Zhang*, X. Li, Y. Zhang, W. Cao, Q. Zhang, Y. Lin, J. He, C.-y. Chiu, R. Lin, and M. Zhang*, " Pixel Design Solutions for Transmittance Improvement in 8K VA LCD," SID Symposium Digest of Technical Papers, Virtual, Online, May 12-17, 2019.

17. Q. Wang, Q. Huang, Z. Liao, C. Du, and M. Zhang*, "Asymmetric Langmuir-Blodgett and Hydrophilization Process to Realize Density-Controllable Carbon Nanotube Array on Flexible and Stretchable Substrates," 2019 IEEE 14th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), Bangkok, Thailand, Apr 11-14, 2019.

18. J. Wen, H. M. Lam, C. Li, D. Zhang, W. Zeng, H. Lin, and M. Zhang*, "Design of a Peripheral-Circuit-Compensation Adjustable-Gamma-Voltage Driving Chip for OLED-on-Silicon Microdisplay," IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Xi'an, China, Jun 12-14, 2019.

19. D. Ding, H. Lin, B. Liu, and M. Zhang*, "A Step-Up Charge Pump with High Integration and Full-Coverage Voltage Conversion Ratio," 2018 IEEE International Symposium on Circuits and Systems (ISCAS), Florence, Italy, May 27-30, 2018.

20. J. Zhang, Z. Liao, Y. Gao, and M. Zhang*, "Embedding Langmuir-Blodgett Carbon Nanotube Array to Enhance Performance of Amorphous InGaZnO Thin Film Transistor," 2018 IEEE 18th International Conference on Nanotechnology (IEEE-NANO), Cork, Ireland, Jul 23-27, 2018.

21. H. Lin, D. Ding, B. Liu, D. Zhang, J. Wen, and M. Zhang*, "A MultiPhase, HighCurrentDrivability Charge Pump in Display Driver ICs," SID Symposium Digest of Technical Papers, Los Angeles, CA, May 21-25, 2018.

22. J. Wen, B. Liu, T. Zhou, H. Lin, and M. Zhang*, "High-Slew-Rate Low-Static-Power Dynamic-Bias Rail-to-Rail Output Buffer for OLED-on-Silicon VR Microdisplay,"SID Symposium Digest of Technical Papers, Los Angeles, CA, May 21-25, 2018.

23. B. Liu, H. Lin, D. Ding, D. Zhang, and M. Zhang*, "An Algorithm for Full-Coverage Voltage-Conversion-Ratio Fibonacci-Like Charge Pump," 2018 IEEE International Conference on Electron Devices and Solid State Circuits (EDSSC), Shenzhen, China, Jun 6-8, 2018.

24. D. Zhang, B. Liu, H. Lin, D. Ding, and M. Zhang*, "A High-Efficient, Multi-Phase Charge Pump Scheme," 2018 IEEE International Conference on Electron Devices and Solid State Circuits (EDSSC), Shenzhen, China, Jun 6-8, 2018.

25. D. Zhang, R. Zhang, H. Lin, Q. Wang, and M. Zhang*, "An On-Chip Oscillator with Comparator Offset Cancellation," 2018 IEEE International Conference on Electron Devices and Solid State Circuits (EDSSC), Shenzhen, China, Jun 6-8, 2018.

26. X. Cheng, L. Miao, H. Chen, Y. Song, Z. Su, X. Chen, H. Wang, M. Zhang*, and H. Zhang*, "Triboelectrification based active sensor for liquid flow and bubble detetecting," 2017 IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS), Las Vegas, NV, Jan 22-26, 2017.

27. S. Zhang, H. Wang, L. Wen, K. Zhu, Z. Liao, Y. Deng, and M. Zhang*, "Reinforced standing multi-walled carbon nanotube film for stretchable strain sensor," 2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), Pittsburgh, PA, Jul 25-28, 2017.

28. C. Du, Y. Deng, K. Zhu, Y. Gao, and M. Zhang*, "Transparent all-carbon-nanotube thin-film transistors," 2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), Pittsburgh, PA, Jul 25-28, 2017.

29. Z. Liao, Y. Gao, Y. Deng, C. Du, S. Zhang, Q. Lin, and M. Zhang*, "On-current tunable carbon nanotube thin-film transistor by SiO2 passivation layer," 2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), Pittsburgh, PA, Jul 25-28, 2017.

30. Y. Gao, Y. Deng, Z. Liao, and M. Zhang*, "Aligned carbon nanotube field effect transistors by repeated compression-expansion cycles in Langmuir-Blodgett," 2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), Pittsburgh, PA, Jul 25-28, 2017.

31. B. Liu, D. Ding, T. Zhou, and M. Zhang*, " A Novel Pixel Circuit Providing Expanded Input Voltage Range for OLEDoS Microdisplays," SID Symposium Digest of Technical Papers, Los Angeles, CA, USA, May 23-25, 2017.

32. D. Ding, B. Liu, T. Zhou, H. Lin, and M. Zhang*, "A Fibonacci-Like Charge Pump and its Current Drive Capacity Enhancement for Display Driver ICs," SID Symposium Digest of Technical Papers, Los Angeles, CA, USA, May 23-25, 2017.

33. Y. Deng, M. Chan, and M. Zhang*, "Fully transparent solution-processed carbon nanotube thin film transistors on a flexible substrate," 2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO), Sendai Japan, Aug 22-25, 2016.

34. L. Wen and M. Zhang*, "A theoretical and numerical study on percolation mechanism of carbon nanotube network," 2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO), Sendai Japan, Aug 22-25, 2016.

35. T. Zhou, C. Leng, H.-M. Lam, H. Lin, S. Zhang, and M. Zhang*, "An Area-Efficient Segmented R-DAC Realized by Low-Voltage Transistors for AMOLED Driver Ics," SID Symposium Digest of Technical Papers, San Francisco, CA, USA, May 22-27, 2016.

36. H. Wang, M. Shi, K. Zhu, Z. Su, M. Zhang*, and H. Zhang, "Fabrication of stretchable and flexible vertically aligned carbon nanotube film," 2016 IEEE 11th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), Sendai, Japan, Apr 17-20, 2016.

37. C. Chen, Y. Deng, P. He, and M. Zhang*, "Rapid thermal annealing for carbon nanotube thin film transistors by a double-thermral-region furnace," 2016 IEEE 11th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), Sendai, Japan, Apr 17-20, 2016.

38. P. He, Y. Deng, C. Chen, and M. Zhang*, "A novel thin-film transistor using carbon nanotubes as both channel and electrodes," 2016 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Hong Kong, China, Aug 3-5, 2016.

39. Z. Liao, H. Lin, B. Liu, and M. Zhang*, "Mobility variation and threshold voltage shift immunized amorphous-indium-gallium-zinc-oxide pixel circuit," 2016 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Hong Kong, China, Aug 3-5, 2016.

40. B. Liu, S. Zhang, D. Ding, T. Zhou, and M. Zhang*, "A Novel Pixel Circuit for 2826 ppi OLEDoS Microdisplays Based on PWM," China FPD Conference, Hefei, China, Sept 22-24, 2016.

41. K. Zhu, Y. Wu, and M. Zhang*, "High-performance carbon nanotube/InGaZnO composite thin film transistors and concentration effect," 15th International Conference on Nanotechnology (IEEE-NANO), Rome, Italy, Jul 27-30, 2015.

42. H. Lin, M. Zhang*, W. C. Chan, and W. K. Lee, "A low-power regulator for display driver IC requiring a moderate current drivability," 2015 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Singapore, Jun 1-4, 2015.

43. H. Lin, M. Zhang*, W. C. Chan, and W. K. Lee, "A novel linear regulator in build-in capacitor Dickson charge pump applications with low output ripple," 2015 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Singapore, Jun 1-4, 2015.

44. Y. Deng, Y. Wu, and M. Zhang*, "Annealing temperature optimization for high-performance carbon nanotube thin film transistors," 2015 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Singapore, Jun 1-4, 2015.

45. W. Jiang, H. Lam, H. Shao, H. Lin, and M. Zhang*, "A distributive on-chip voltage regulation scheme for power supply in AMOLED driver ICs," 2015 IEEE 11th International Conference on ASIC (ASICON), Chengdu, China, Nov 3-6, 2015.

46. Y. Wu, M. Zhang*, and M. Chan, "Using 0-dimensional silica to control diameter and density of carbon nanotubes," 14th IEEE International Conference on Nanotechnology (IEEE-NANO), Toronto, ON, Canada, Aug 18-21, 2014.

47. H. Lin, M. Zhang*, W. C. Chan, W. K. Lee, and M. Chan, "A novel Makowski charge pump and its optimization using Lagrange theorem," 2014 12th IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT), Guiling, China, Oct 28-31, 2014.

48. Y. Wu, M. Zhang*, X. Xiao, and S. Zhang, "Indium gallium zinc oxide - Carbon nanotube composite thin film transistor," 2014 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), Chengdu, China, Jun 18-20, 2014.

49. M. Zhang*, P. C. H. Chan, Y. Chai, and Z. Tang, "Applying SOI Technology on Carbon Nanotube Transistors," 2006 IEEE international SOI Conferencee Proceedings, New York, USA, Oct 2-5, 2006.

50. M. Zhang*, P. C. H. Chan, Q. Liang, and Z. Tang, "A novel local bottom-gate carbon nanotube field effect transistor on SOI," 2003 IEEE International Conference on SOI, Newport Beach, USA, Sept 29-Oct 2, 2003.


AUTHORIZED PATENTS

1. 张敏,黄巍宏,焦浩轩,黄秋月,张娇娜;一种可拉伸半导体器件的制备方法,2022-9-20,中国,ZL 202010991589.1

2. 林兴武, 张盛东,张敏,焦海龙,黄杰,邱赫梓,李成林,文金元;一种反馈信号检测方法及像素外模拟域补偿显示系统,2022-6-17,中国,ZL 202011037598.3;

3. 林兴武, 张盛东,张敏,焦海龙,黄杰,邱赫梓,李成林,文金元;一种反馈信号检测方法及显示系统,2022-6-17,中国,ZL 202011037580.3

4. 林兴武,张盛东,张敏,焦海龙,邱赫梓,李成林;一种像素单元及像素外模拟域补偿显示系统,2022-3-1,中国,ZL 202011495974.3

5. 张敏,林和生,丁德东,刘宾杰;多相位不交叠时钟信号产生电路及相应的方法,2021-11-5,中国,ZL 201711237527.6

6. 张敏,曾韦玲; 微显示像素装置、微显示装置及补偿方法,2021-03-19,中国,ZL 201910679321.1

7. 张敏,刘宾杰,林和生,丁德东;一种比较装置以及包括该比较装置的线性稳压装置,2021-02-05,中国,ZL 201810115508.4

8. 张敏,张硕,王焕;应力传感器及其制备的方法,2020-07-14,中国,ZL 201710337940.3

9. 张敏,林和生,丁德东;电荷泵电路,2020-04-14,中国,ZL 201710916586.X

10.  张敏,林和生,刘宾杰,张硕;具有增强驱动能力的电荷泵电路,2019-12-03,中国,ZL 201711079617.7

11.  张敏,周天宇;像素装置、驱动像素装置的方法和显示设备,2019-10-08,中国,ZL 201710388441.7

12. 张敏,林和生;一种Fibonacci电荷泵,2019-02-0-26,中国,ZL 201610890464.3

13. 张敏,吴玉翠;用于生长碳纳米管的方法,2018-08-28,中国,ZL 201510085610.0

14. 林兴武,张盛东,焦海龙,张敏,文金元,白文龙,邱赫梓,李成林,像素阵列的补偿驱动方法、驱动装置以及显示设备,2021-10-22,中国,ZF 2020106093363

15. 张盛东,邱赫梓,廖聪维,郭凡,林兴武,鲁文高,张敏;加法器单元以及显示设备,2020-11-27,中国,ZL 201910070697.2

16. 林兴武,张盛东,张敏,冷传利,王翠翠,胡治晋,孟雪,周天宇,杨方方;显示装置及其显示驱动器,2018-07-06,中国,ZL 201610165199.2

17. 林兴武,张盛东,冷传利,王翠翠,孟雪,张敏;一种具有反馈通道的显示系统,2018-03-20,中国,ZL 201510618674.2

18. 林兴武,张盛东,冷传利,王翠翠,孟雪,张敏;一种像素矩阵的外围补偿系统、方法和显示系统,2017-11-28,中国,ZL 2015104080616.


对计划招收研究生的基本要求:

1. 背景:具备微电子、半导体器件、物理、集成电路设计等基础;

2. 具有较强的实验能力、器件机理、理论及建模、逻辑思维和表达能力,对所从事研究的领域具有兴趣和好奇心;

3. 英语阅读、写作能力强;

4Attitude=100. (Result-orientated, Self- motivated, Enjoying research and life).