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Sino-German College of Intelligent Manufacturing

Lihua Li

Position
Professor
Profile
She graduated from the Department of Optoelectronic Engineering of Beijing Institute of Technology in 2004 and received a bachelor of engineering degree in measurement and control technology and instrumentation. In 2012, she graduated from the Department of Precision Instruments and Mechanics of Tsinghua University and received a doctorate in engineering in instrument science and technology. Since September 2020, Li Lihua has served as the subject leader and professor of the Sino-German college of Intelligent Manufacturing, Shenzhen Technology University. During this period, she achieved outstanding scientific research results, published many high-quality papers as the first author and corresponding author, and held many patents. She has undertaken several major projects, including software development for optical glass component molding machines, involving considerable funds. In addition, she also serves as a thematic editorial board member of Micromachines and a senior member of the Optical Engineering Society of China.
Research Interest
Ultra-precision machining technology and process; Ultra-precision equipment research and development; Advanced optical design, manufacturing, testing and application.
E-mail
lilihua@sztu.edu.cn
Telephone
13810095867

1. Education And Work Experience

Ø Education Experience

l 2020.09 ~ now Subject leader/professor, Sino-German college of Intelligent Manufacturing, Shenzhen Technology University. Responsible for the development and construction of optical intelligent ultra-precision manufacturing disciplines

l 2013.09 ~2020.08 Scientific Director, State Key Laboratory of Ultra-Precision Machining Technology, Hong Kong Polytechnic University Responsible for project research and industrialization related projects, and is also the person in charge of the laboratory base in Shenzhen.


Ø Work Experience

l 2010.01 ~ 2013.08 Associate Researcher, State Key Laboratory of Ultra-Precision Machining Technology, Hong Kong Polytechnic University Responsible for developing optical imaging systems and related instruments

l 2007.05 ~ 2008.01 Associate Researcher, Toshiba Corporation and Digital Stream Corporation of Japan Participated in the development of optical reading systems


2. Research Field And Achievements   

Ø Project Experience

[1]Optical Glass Component Molding Machine Software Development Project (Citic)Project leader, Shenzhen Technology University school-enterprise cooperation research and development project, 2023.07.01 - 2028.06.30, ¥1,040,631.66;
[2] “Construction of the School-Enterprise Joint Laboratory of the Guangdong-Hong Kong-Macao Optical Key Parts Precision Manufacturing Research Center (C0CRC)”Project leader, Shenzhen Technology University school-enterprise cooperation research and development project, 2022.05.01 - 2027.04.30, ¥1,000,000;
[3] “Construction of the Undergraduate Engineering Optics Laboratory Based on the Introduction of Optical Optimization Design Application Cases and Competency Training”Project leader, Shenzhen Technology University school-enterprise cooperation research and development project, 2021.07.05 - 2023.07.06, ¥10,000;
[4] “Coating Quality Control of Graphene-like Composite Coatings”Project leader, Shenzhen Technology University school-enterprise cooperation research and development project, 2021.07.01 - 2023.06.31, ¥1,000,000;
[5] “Glass Lens Refractive Index Testing System Based on Wavefront Interference Information”Project leader, Shenzhen Technology University self-made scientific instrument equipment project, 2021.03.16 - 2023.02.15, ¥200,000;
[6] “Research on New Manufacturing Technology of Aspheric Glass Lenses”Project leader, Shenzhen Technology University new high-level talent financial subsidy scientific research startup project, 2021 - 01 - 01 to 2023 - 12 - 31, ¥2,700,000;
[7] “UAV Monitoring System Based on 3D Light Field Technology”Project leader, Hong Kong Innovation and Technology Fund, 2018.01 - 2020.03, HK$3,750,000; [8] “Research on Light Field Microscopic Imaging Analysis System”Project leader, Hong Kong Innovation and Technology Fund, 2016.04 - 2018.06, HK$2,000,000;
[9] “Research and Development of Micro-nano Imprinting Equipment and Processing Technology for Precision Glass Optical Microstructures”Project leader, Hong Kong Innovation and Technology Fund, 2016.01 - 2018.06, HK$6,000,000; [10] “Development of an Intelligent Portable Corneal Shape Analysis System for Children”Deputy project leader, Hong Kong InnoLife Fund, 2019.01 - 2021/12, HK$4,000,000;


Ø Selected Publications

[1] Li L, Zhou J. Evaluation of Warpage and Residual Stress of Precision Glass Micro-Optics Heated by Carbide-Bonded Graphene Coating in Hot Embossing Process. Nanomaterials (Basel) (Q2), 2021 Feb 1;11(2):363. (2019 Impact factor: 4.324)
[2] L.H. Li*, H. C. Wong, W. B. Lee. Evaluation of a Novel Nanodroplet Cutting Fluid for Diamond Turning of Optical Polymers. Polymers(Q1), Vol. 12, Issue 10, 2020(2019 Impact factor: 3.426)
[3] L.H. Li, G. Yang*, W.B. Lee, M.C. Ng, K.L. Chan. Carbide-bonded graphene-based Joule heating for embossing fine microstructures on optical glass. Applied Surface Science (Q1), Vol 500,144004, 2020 (2019 Impact factor: 6.182)
[4] L.H. Li*, M.K. Chan, W.B. Lee, M.C. Ng, K.L. Chan. Modelling and experimental performance analysis of a novel heating system and its application to glass hot embossing technology. Optics Letter (Q1), 44, 3454 - 3457 2019 (2019 Impact factor: 3.714)
[5] L.H. Li, N.H. Yu*, C.Y. Chan, W.B. Lee. Al6061 surface roughness and optical reflectance machined by SPDT at low feed rate. PLoS One (Q2), 2018 Apr 2;13 (4):e0195083. (2019 Impact factor: 2.740)
[6] L.H. Li, C.Y. Chan*, W.B. Lee, Y.H. Liu. A novel evaluation and compensation method for ultra - precision machining of hybrid lens. Precision Engineering (Q2), 43 (43):10 - 23, 2016 (2019 Impact factor: 3.108)
[7] L.H. Li*, L.F. Pan, J. Ma. Optical system and lens design for

blu - ray disc optical pick - up. Chinese Optics Letters (Q3), 6(6), pp.426 - 430, 2008 (2019 Impact factor: 2.045)
[8] Xingzheng Wang, Zixuan Wang, Wenhao Huang, Kaiqiang Chen, and Lihua Li*. Boosting Light Field Image Super Resolution Learnt From Single - Image Prior. Transactions on Computational Imaging, In Press.
[9] Yu, N.; Li, L.; Kee, C.-s. Modeling and Simulation of the Surface Generation Mechanism of a Novel Low-Pressure Lapping Technology. Micromachines 2021, 12, 1510
[10] Zhihao Zhao, Samuel Cheng*, Lihua Li*, Robust Depth Estimation on Real - world Light Field Images Using Gaussian Belief Propagation. Image and Vision Computing, 2021, 1 - 13.
[11] Wang X, Zan Y, You S, Deng Y, Li L. Fast and Accurate Light Field View Synthesis by Optimizing Input View Selection. Micromachines. 2021; 12(5):557.
[12] J. Zhou*, C.Y. Zhu, L.H. Li*, M.C. Ng, K. Liu, Temperature and rate dependent debonding behaviors of precision glass molding interface, Journal of the American Ceramic Society(Q1), 2020(2019 Impact factor: 3.502)
[13] J. Zhou, L.H. Li*, M.C. Ng, W.B. Lee. Effect of molding machine’s stiffness on the thickness of molded glass rings. International Journal of Applied Glass Science (Q2), Vol 10, Issue 4, 2019 (2019 Impact factor: 1.917)
[14] G. Yang, L.H. Li*, W.B. Lee, M.C. Ng. The structure of graphene and its contained disorders: a review. Science and Technology of Advanced Materials (Q1). 2018: 19, pp. 613 - 648 (2019 Impact Factor: 5.799)
[15] G. Yang, L.H. Li*, W.B. Lee, M.C. Ng. Investigation of the heating behavior of carbide - bonded graphene coated silicon wafer used for hot embossing. Applied Surface Science (Q1), 2018: 435, pp.130 - 140 (2019 Impact factor: 6.182)
[16] J. Zhou, L.H. Li*, G. Feng, K. Liu. Quality dependence study on dimensions for plano - concave molded glass lenses. International Journal of Applied Glass Science (Q2), 2017,8(3), pp.266 - 275 (2019 Impact factor: 1.917)
[17] X.D. Zhang,L.H. Li*, X.Z. Li, C.Y. Chan, L.L. Zhu, W.B. Lee, F.Z. Fang. Highly uniform manufacturing method for large - area microlens arrays. The International Journal of Advanced Manufacturing Technology (Q2), 2018: 95(1 - 4), pp. 99 - 108 (2019 Impact factor: 2.633)
[18] J. D. Han, L.H. Li*, C. Y. Chan, W. B. Lee. Investigation on the formation of surface defects of OFHC copper in diamond micro - grooving process. The International Journal of Advanced Manufacturing Technology (Q2), 2017: 93(1 - 9), pp 4133–4141 (2019 Impact factor: 2.633)
[19] C.Y. Chan, N.Y. Wong, L.H. Li*, W.B. Lee, K.D. Leung. Novel corrective machining method to fine - tune groove widths. The International Journal of Advanced Manufacturing Technology (Q2), 2016: 84(9 - 12), pp.2729 - 2737 (2019 Impact factor: 2.633)
[20] C.Y. Chan, L.H. Li*, W.B. Lee, H.C. Wong. Use of nano - droplet - enriched cutting fluid (NDCF) in ultra - precision machining. The International Journal of Advanced Manufacturing Technology (Q2), 2016: 84(9 - 12), pp.2047 - 2054 (2019 Impact factor: 2.633)
[21] C.Y. Chan,L.H. Li*, W. B. Lee, H. C. Wong. Monitoring life of diamond tool in ultra - precision machining. The International Journal of Advanced Manufacturing Technology (Q2), 2016: 82(5 - 8), pp.1141 - 1152 (2019 Impact factor: 2.633)
[22] J.D. Han, L.H. Li*, W.B. Lee. Investigation on the effects of laser heating on surface quality of OFHC copper in diamond cutting process. Precision Engineering (Q2), 2018: 54(294 - 301) (2019 Impact Factor: 3.108)


Ø Other Academic Activities

l Serves as a member of the editorial board for the subject area of Micromachines;

l Serves as a member of the Young Experts Committee for Advanced Optical Manufacturing within the Chinese Optical Engineering Society;

l Serves as a member of the International Society for Nanomanufacturing.


3. Teaching Summary

l Physical optics;

l Applied Optics;

l engineering economics;

l Introduction to Mechanical Engineering;

l Theory and application of multi-source information fusion;

l Professional Introduction;
l Undergraduate Graduation Design.







Contact

Telephone:+86 755-23256198

Zip code:518118

Address:No. 3002, Lantian Road, Pingshan District, Shenzhen, GuangdongChina. 

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