李文荣,男,1964年出生,博士,教授,博士生导师。
联系方式
联系电话:(+852) 3442-9266
电子邮件:zhaoyuliang at neuq dot edu dot cn
研究方向
可穿戴运动传感器,显微视觉,图像处理,人工智能,深度学习
教育背景
1983.09-1987.05 美国南加州大学 宇航工程 学士
1987.09-1988.12 美国南加州大学 宇航工程 硕士
1991.09-1997.08 美国加州大学洛杉矶分校 宇航工程 博士
工作履历
1997.09 2001.06 香港中文大学 助理教授
2002.07 2006.06 香港中文大学 副教授
2002.07 2011.10 香港中文大学微纳米系统中心 主任
2006.06 2011.10 香港中文大学 教授
2011.11 2013.06 香港城市大学 教授
2013.07 至今 香港城市大学 首席教授
学术兼职
1. 2015至今 编委(Editorial Board Member) Scientific Reports
2. 2007-2013 主编 (Editor-in-Chief) IEEE Nanotechnology Magazine
3. 2012至今 副主编 (Associate Editor) Journal of Micro-Bio Robotics
4. 2010-2011 副主编 (Associate Editor) Journal of Micro/Nano Mechatronics
5. 2010至今 编委(Editorial Board Member) Micromachines
6. 2008至今 编委(Editorial Board Member) Nanoscience & Nanotechnology
7. 2015至今 特邀编辑 (Guest Editor) Sensors,Special Issue on Sensors for Robots
8. 2011-2013 特邀编辑 (Guest Editor) Journal of the Association for Laboratory Automation,Special Issue on Robotics, Society for Laboratory Automation and Screening
9. 2007-2009 特邀编辑(Guest Editor) IEEE Sensors Journal, Special Issue on Nanosensor Technology
10. 2004-2005 特邀编辑(Guest Editor) IEEE Trans. on Automation Science and Engineering, Special Issue on Nano-scale Automation and Assembly
11. 2003-2004 特邀编辑(Guest Editor) IEEE Transactions on Mechatronics, Focused Section on Micro and Nano Manipulations
12. 2009-2011 执行委员会联合主席(Co-Chair,Executive Organizing Committee) The 16th International Conference on Solid-State Sensors, Actuators and Microsystems (June 5-9, 2011, Beijing, China)
13. 2009-2010 国际组委会成员(International Organizing Committee) The 2nd International Contest on Applications of Micro/Nano Technologies
14. 2006至今 委员(Member) Steering Committee, IEEE Int. Conf. on Nano/Micro Engineered and Molecular Systems
15. 2007至今 委员(Member) Steering Committee, IEEE Int. Conf. on Nano/Molecular Medicine and Engineering
16. 2011-2012 委员(Member) Steering Committee, IEEE Int. Conf. on Robotics and Biomimetics, 2011 and 2012
17. 2008-2010 委员(Member) Technical Advisory Board, Virtus Advanced Sensors,USA
18. 2007-2009 委员(Member) Advisory Board, The Global Emerging Technology Institute,USA/Japan
科研情况
【在研项目】
1. Project Coordinator, Hong Kong Culture, Sports and Tourism Bureau (through Hong Kong Sports Institute’s Sports Science and Research Funding Scheme): “AI Wearable Wireless Micro Motes for Real-Time Motion Analytics of Gymnastics and Wushu Athletes”, Project Number: TBD, HK$6,319,250, Oct 1, 2022 – September 2024.
2. Principal Investigator, Hong Kong General Research Fund: “A Flexible Sponge-based Vibration Sensor for Conversion of Neck-skin Vibration to Digital Voice”, Project Number: CityU 11207222, HK$ 1,098,559, January 01, 2023 – December 31, 2025.
3. Principal Investigator, Hong Kong Innovation and Technology Fund — Partnership Research Programme: “Eco-Cosmetic Intelligent Packaging System Based on Industrial IoT”, Project Number: PRP/063/20FX, HK$2,656,000, May 1, 2021 – October 31, 2022.
【结题项目】
1. Principal Investigator, Hong Kong General Research Fund: “A Microfluidic Pervaporation Device for Fabrication of Nanoparticle-Based Metalens for Dry Environment Super-Resolution Imaging”, Project Number: CityU 11216120), HK$ 1,195,500, Approval date: 30 Jun 2020.
2. Principal Investigator, Shenzhen Science, Technology and Innovation Commission (SZSTI) (Type “D” Project): “大视场纳米尺度超分辨测量与成像系统”, Project Number: SGDX2019081623121725), RMB$ 3,000,000, Approved date: 24 Oct 2019.
3. Principal Investigator, JLFS - RGC-Joint Laboratory Funding Scheme: “Development of 3D Integrated Robotics and Sensing Structures using Multi-layered Nano-ink Circuit Deposition”, Project Number: JLFS/E-104/18), HK$ 2,995,000, Approval date: 19 Jul 2019, Start date: 01 Jul 2019.
4. Principal Investigator, Hong Kong General Research Fund (RGC): “Atomization of Viscous Fluids for Digital Scent Technology Using An Integrated Micro-droplet Generation Platform”, Project Number: CityU 11204918), HK$ 632,421, Oct 2018-Sep 2021.
5. Principal Investigator, Hong Kong Innovation and Technology Fund — University-Industry Collaboration Programme (Matching Grant for Joint Research Scheme): “Audio-Fingerprint Activated Scent Releasing Platform”, Project Number: UM/332, HK$1,411,050 (HK$705,525 from ITC; HK705,525 from private company), Jan 2018-Jan 2019.
6. Principal Investigator, Hong Kong Innovation and Technology Fund — University-Industry Collaboration Programme (Matching Grant for Joint Research Scheme): “An Implantable Micro-Sensing System for Tracking Animal Motion Behaviors”, Project Number: UM/326, HK$1,143,100 (HK$571,550 from ITC; HK$571,550 from private company), Nov 2017-Apr 2019.
7. Principal Investigator, Hong Kong General Research Fund (RGC): “An Opto-microfluidics Platform for High-throughput Single-Cell Death Recognition and Drug Testing”, Project Number: CityU 11213817), HK$695, 854, Oct 2017-Sep 2020.
8. Principal Investigator, NSFC/RGC Joint Research Scheme: “Programmable and Integrated Fabrication of Nano-material Devices by Optically-Induced Force Field”, Project Number: N_CityU132/14, HK$852,950, Jan 2015-Dec 2018.
9. Principal Investigator, Hong Kong Innovation and Technology Fund – University-Industry Collaboration Programme (Matching Grant for Joint Research Scheme): “A Pen-sized Biocompatible MEMS Atomizer for Aromatherapy and Wellbeing Applications”, Project Number: UM/263 (9440121), HK$1,283,365 (HK$640,550 from ITC; HK$641,700 from private company), Nov 2014-Oct 2016.
10. Principle Investigator, Hong Kong Innovation and Technology Fund (Tier 3): “Green Motion Sensors: Graphene-based Eco-Friendly Micro Accelerometers”, Hong Kong Innovation Technology Fund (ITS/143/13), HK$968,300 (ITC) +$50,000 (Sengital Ltd.), Jan 1, 2014 to Dec 31, 2015.
11. Principal Investigator, CAS-Croucher Funding Scheme for Joint Laboratories: “Bio-manipulation and Bio-marking by Optically-induced Electrokinetics”, Project Number: 9500011, HK$1,000,000, 2012-2015.
奖励与荣誉
1. IEEE NTC杰出讲师(2014/2015)
2. 浙江省千人英才奖(浙江省千人计划),2012年
3. 百人奖(百人計劃;中国科学院海外杰出学者),2004年
4. 校长模范教学奖 香港中文大学 2006年
5. 最佳会议视频奖,机器人与仿生学会议(IEEE-ROBIO 2011),普吉岛,泰国
6. 最佳学生论文,机器人与仿生学学术会议(IEEE-ROBIO 2007),中国三亚
7. 最佳会议论文,高级机电一体化会议(IEEE/ASME AIM 2007),苏黎世,瑞士
8. 最佳会议论文, Ben Wegbreit最佳操作论文入围 IEEE国际会议 机器人与自动化学术会议(IEEE-ICRA 2003),台北,台湾2003年
学术成果
【论文、专著与专利等】
最近发表SCI论文:
1. BL Jia, P Li, FF Wang, HY Chan, GL Zhang, WJ Li, "Determination of Microsphere-lens Magnification using Micro-robotic Scanning Superlens Nanoscopy." IEEE Open Journal of Nanotechnology 1, 65-76 (2020)
2. YL Zhao, JQ Liang, YF Cui, XP Sha, WJ Li, "Adaptive 3D Position Estimation of Pedestrians by Wearing One Ankle Sensor." IEEE Sensors Journal PP(99), 1-1 (2020)
3. ZK Zhan, HY Zhang, XYu Niu, XD Yu, H Sun, XP Sha, YL Zhao, Y Wang, WJ Li, "Microliter Sample Insulin Detection Using a Screen-Printed Electrode Modified by Nickel Hydroxide." ACS Omega (2020)
4. YM Liu, L Zhao, R Avila, C Yiu, T Wong, Y Chan, KM Yao, DF Li, YT Zhang, WJ Li, ZQ Xie, XG Yu, "Epidermal Electronics for Respiration Monitoring via Thermo-Sensitive Measuring." Materials Today Physics 13, 100199 (2020)
5. TY Zhang, P Li, HB Yu, FF Wang, XD Wang, T Yang, WG Yang, WJ Li, YC Wang, LQ Liu, "Fabrication of flexible microlens arrays for parallel super-resolution imaging." Applied Surface Science 504, 144375 (2020)
6. N Liu, YB Lin, Y Peng, LM Xin, T Yue, YY Liu, CH Ru, SR Xie, L Dong, HY Pu, HG Chen, WJ Li, Y Sun, "Automated Parallel Electrical Characterization of Cells Using Optically-Induced Dielectrophoresis." IEEE Transactions on Automation Science and Engineering 17(2), 1084-1092 (2020)
7. M Chen, YF Liu, HY Chan, JC Tam, XY Li, CS Chan, WJ Li, "Wireless AI-Powered IoT Sensors for Laboratory Mice Behavior Recognition." bioRxiv (2020)
8. X. Sha, C. Lian, Z. Yuliang, J. Yu, S. Wang, and W. Li, “An Explicable Keystroke Recognition Algorithm for Customizable Ring-Type Keyboards.” IEEE Access 8(1), (2020)
9. WF Liang, LQ Liu, JH Wang, XL Yang, YC Wang, WJ Li, WG Yang, "A Review on Optoelectrokinetics-Based Manipulation and Fabrication of Micro/Nanomaterials." Micromachines 11(1), 78(2020)
10. B Jia, F Wang, H Chan, G Zhang, WJ Li, “In situ printing of liquid superlenses for subdiffraction-limited color imaging of nanobiostructures in nature.” Microsystems & nanoengineering 5 (1), 1 (2019)
11. Y Wen, H Yu, W Zhao, F Wang, X Wang, L Liu, WJ Li, “Photonic Nanojet Sub-Diffraction Nano-Fabrication With in situ Super-Resolution Imaging.” IEEE Transactions on Nanotechnology 18, 226-233 (2019)
12. Y Zhao, C Lian, X Zhang, X Sha, G Shi, WJ Li, “Wireless IoT Motion-Recognition Rings and a Paper Keyboard.” IEEE Access 7, 44514-44524 (2019)
13. F Wang, H Wan, Z Ma, Y Zhong, Q Sun, Y Tian, L Qu, H Du, M Zhang, L Li, H Ma, J Luo, Y Liang, WJ Li, G Hong, L Liu, H Dai, “Light-sheet microscopy in the near-infrared II window.” Nature methods 16(6), 545 (2019)
14. QJ Sun, XH Zhao, Y Zhou, CC Yeung, W Wu, S. Venkatesh, ZX Xu, J. J. Wylie, WJ Li, V. A. Roy, “Fingertip‐Skin‐Inspired Highly Sensitive and Multifunctional Sensor with Hierarchically Structured Conductive Graphite/Polydimethylsiloxane Foams.” Advanced Functional Materials 29(18), 1808829 (2019)
15. QJ Sun, J Zhuang, S Venkatesh, Y Zhou, ST Han, W Wu, KW Kong, WJ Li, “Highly sensitive and ultrastable skin sensors for biopressure and bioforce measurements based on hierarchical microstructures.” ACS applied materials & interfaces 10 (4), 4086-4094 (2018)
16. F Wang, L Liu, G Li, P Li, Y Wen, G Zhang, Y Wang, GB Lee, WJ Li, “Thermo metry of photo sensitive and optically induced electrokinetics chips.” Microsystems & nanoengineering 4 (1), 26 (2018)
17. Y Wang, Y Zhao, RHM Chan, WJ Li, “Volleyball Skill Assessment using a Single Wearable Micro Inertial Measurement Unit at Wrist,” IEEE Access (2018).
18. W Liang, Y Zhao, L Liu, Y Wang, WJ Li, GB Lee, “Determination of Cell Membrane Capacitance and Conductance via Optically Induced Electrokinetics,” Biophysical Journal 113 (7), 1531-1539 (2017).
19. X Yang, X Niu, Z Liu, Y Zhao, G Zhang, W Liang, WJ Li, “Accurate Extraction of the Self-Rotational Speed for Cells in an Electrokinetics Force Field by an Image Matching Algorithm,” Micromachines 8 (9), 282 (2017).
20. Y Liu, C Wu, HSS Lai, YT Liu, WJ Li, YJ Shen, “Three-Dimensional Calcium Alginate Hydrogel Assembly via TiOPc-Based Light-Induced Controllable Electrodeposition,” Micromachines 8 (6), 192 (2017).
21. P Zhou, H Yu, W Yang, Y Wen, Z Wang, WJ Li, L Liu, “Spatial Manipulation and Assembly of Nanoparticles by Atomic Force Microscopy Tip-Induced Dielectrophoresis,” ACS Applied Materials and Interfaces (2017).
22. Y Wen, F Wang, H Yu, P Li, L Liu, WJ Li, “Laser-nanomachining by microsphere induced photonic nanojet,” Sensors and Actuators A: Physical 258, 115-122 (2017).
23. C Wu, TG Lin, Z Zhan, Y Li, SCH Tung, WC Tang, WJ Li, “Fabrication of all-transparent polymer-based and encapsulated nanofluidic devices using nano-indentation lithography,” Microsystems & Nanoengineering 3, 16084 (2017).
24. J Law, KW Kong, HY Chan, W Sun, WJ Li, EBF Chau, GKM Chan, “Atomization of High-Viscosity Fluids for Aromatherapy Using Micro-heaters for Heterogeneous Bubble Nucleation,” Scientific Reports 7, 40289 (2017).
25. F Wang, L Liu, H Yu, Y Wen, P Yu, Z Liu, Y Wang, WJ Li, “Scanning superlens microscopy for non-invasive large field-of-view visible light nanoscale imaging,” Nature Communications 7 (doi:10.1038/ncomms13748), 13748 (2016).
26. HSS Lai, F Wang, Y Li, B Jia, L Liu, WJ Li, “Super-Resolution Real Imaging in Microsphere-Assisted Microscopy,” PloS one 11 (10), e0165194 (2016).
27. N Liu, F Wang, L Liu, H Yu, S Xie, J Wang, Y Wang, GB Lee, WJ Li, “Rapidly patterning micro/nano devices by directly assembling ions and nanomaterials,” Scientific Reports 6 (doi:10.1038/srep32106), 32106 (2016).
28. Z Wu, Y Zhou, HL Cao, WJ Li, “Closed-loop enhancement of jet mixing with extremum-seeking and physics-based strategies,” Experiments in Fluids 57 (6), 1-14 (2016).
29. F Wang, L Liu, P Yu, Z Liu, H Yu, Y Wang, WJ Li, “Three-Dimensional Super-Resolution Morphology by Near-Field Assisted White-Light Interferometry,” Scientific Reports 6 (doi:10.1038/srep24703) (2016).
30. Y Li, SHS Lai, N Liu, G Zhang, L Liu, GB Lee, WJ Li, “Fabrication of High-Aspect-Ratio 3D Hydrogel Microstructures Using Optically Induced Electrokinetics,” Micromachines 7 (4), 65 (2016).
31. P Li, N Liu, H Yu, F Wang, L Liu, GB Lee, Y Wang, WJ Li, “Silver nanostructures synthesis via optically induced electrochemical deposition,” ScientificReports 6 (2016).
会议论文:
1. J Law, W Sun, Z Wu, HY Chan, Y Zhou, WJ Li, “A low-cost reusable micro-newton scale micro-thruster,” 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2017.
2. B Jia, SHS Lai, FF Wang, L Liu, G Zhang, WJ Li, “Fabrication of a probe-lens device for scanning super-resolution imaging platform,” IEEE 12th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), 2017.
3. M Chen, W Sun, Y Gao, S Zhan, G Zhang, WJ Li, “Development of a holonomic mobile spherical robot with 3D center of gravity shifting actuators,” IEEE International Conference on Robotics and Biomimetics (ROBIO), 2016.
4. HSS Lai, G Zhang, WJ Li, “Imaging of nanoscale particles in microfluidic devices using super-lens manipulated by optically-induced dielectrophoresis,” IEEE 16th International Conference on Nanotechnology (IEEE-NANO), 2016.
5. Y Liu, W Wan, HSS Lai, Y Liu, W Li, Y Shen, “Three-dimensional calcium alginate hydrogel patterning by using TiOPc-based controllable electrodeposition,” IEEE 16th International Conference on Nanotechnology (IEEE-NANO), 2016.
6. Z Wu, HY Chan, Y Zhou, WJ Li, “Micro bubble generation using monolayer graphene heating elements,” IEEE 16th International Conference on Nanotechnology (IEEE-NANO), 2016.
7. KW Kong, WM Lau, KS Wong, HY Chan, FCS Lee, J Shen, VTCW Wong, WJ Li, “A pulse-sensing robotic hand for tactile arterial palpation,” IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER), 2016.
8. S Zhan, M Chen, Z Li, W Sun, WJ Li, G Zhang, “Large bridge cable tension estimation with Cyber vibration Sensing System,” IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER), 2016.
【专著】
1. angsheng Xu, Wen Jung Li, and Ka Keung Lee, “Intelligent Wearable Interfaces “Wiley-Interscience (Dec 13 2007), ISBN-13: 978-0470179277.
2. Wen J. Li and Ning Xi, “Nanoscale Robotics and Manipulation, a review chapter in the Encyclopedia of Nanoscience and Nanotechnology”, 2003, American Scientific Publishers.
3. King W. C. Lai and Wen J. Li, “Automated Micro-Assembly of MOEMS by Centrifugal Force”, 2002, Research Studies Press.
4. Carmen K. M. Fung, Wen J. Li, and Ning Xi, “A PVDF-Based Micro-Newton Force Sensing System for Automated Micro-Manipulation”, 2002, Research Studies Press.
5. Michael Y. F. Kwok, Wen J. Li, and Yangsheng Xu, “Development of micro Nafion actuators for cellular motion control and underwater manipulation”, Experimental Robotics VIII, Springer-Verlag, 200
【专利】
1. Ho Yin Chan, Wen J. Li, Boa Fung Chau, Kak Man Chan, "Bubble atomizer and method for atomizing liquid",US Patent No. 9669364B
2. Guanglie Zhang, Guangyi Shi, Yilun Luo, Heidi Yee Yan Wong, Wen Jung Li,Philip Heng Wai Leong, Ming Yiu Wong,Ubiquitous 3D Digital Pen Using MEMS Motion Sensing Technology,7508384
3. Guanglie Zhang, Guangyi Shi, Yilun Luo, Heidi Yee Yan Wong, WenJung Li, Philip Heng Wai Leong, Ming Yiu Wong,Writing System,1,173,996
4. 李文荣;陈浩然,一种电致热驱动微执行器及制备工艺,200610134636.0
5. 李文荣;陈浩然,一种电致热驱动微执行器,200620153560.1
6. 李文荣;周文利,一种基于聚合体薄膜微型细胞夹持器及制备工艺,200410020772.8
7. 李文荣;陈浩然,一种新型热驱动微型执行器,200410020435.9
8. Wen J. Li, King W. C. Lai, and Allan. P. Hui,Meso and Micro Scale Assembling by Force Centrifugal,60/318,307, #9063
9. Chih-Ming Ho, Wen J Li,Method for Aligning and Forming Microelectro-
mechanical Systems (MEMS) on Contouring Surfaces,5905007
讲授课程情况
高级研究课题 (研究生)
生物安全与安保(本科)
生物传感器和生物器件(本科)
运动生物力学(本科)