黎永富

助理教授

教育背景

博士(香港大学)

硕士(香港城市大学)

学士(香港大学)

研究领域
药物传输、材料工程、纳米生物技术
电子邮件
laiwingfu@cuhk.edu.cn
个人简介

黎永富教授现任香港中文大学(深圳)生命与健康科学学院助理教授。在加入学院前,黎博士在韩国首尔延世大学和香港大学从事博士后工作,亦曾在深圳大学药学院担任助理教授及香港理工大学应用生物及化学科技学系兼任助理教授。他于2014 年曾获英国皇家生物学会认定为特许生物学家;2018 年,黎博士获深圳市“海外高层次人才”(B类)认定,同年亦获英国皇家化学会认定为特许化学家;2019 年获深圳市南山区 “领航人才” (B类) 称号。

黎博士主要通过工程技术与传统材料化学的融合,研发能用于生物医学及药剂应用上的高分子材料。迄今他在Advanced Functional Materials, Chemistry of Materials, Nanoscale, ACS Applied Materials and Interfaces, Biomaterials, 和 Journal of Controlled Release 等SCI期刊发表了多篇论文,并获得了韩国和美国的专利。黎博士亦出版了一部个人专著 (Academic Press/Elsevier出版),论述用于抗衰老治疗上的载体设计与调控的技术,并在ACS Applied Materials & Interfaces, Acta Biomaterialia, Ageing Research Reviews, Biomaterials, Biomacromolecules, Journal of Controlled Release 和 Journal of Materials Chemistry B 等30多本期刊担任审稿工作。

 

学术著作

1. Lai, W. F.*, Lin, M., Wong, W. T. (2019). Tackling aging by using microRNA as a target and a tool. Trends in Molecular Medicine. DOI: 10.1016/j.molmed.2019.04.007
2. Lai, W. F.*, Hu, C. S., Deng, G. X., Lui, K. H., Wang, X., Tsoi, T. H., Wang, S. X.*, Wong, W. T.* (2019). A biocompatible and easy-to-make polyelectrolyte dressing with tunable drug delivery properties for wound care. International Journal of Pharmaceutics, 566, 101-110.
3. Li, T. Z., Wang, Z. G., Jiang, D. F., Wang, H. G., Lai, W. F., Lv, Y. K., Zhai, Y. G. (2019). A FRET biosensor based on MnO2 nanosphere/copper nanocluster complex: from photoluminescence quenching to recovery and magnification. Sensors and Actuators B: Chemical, 290, 535-543.
4. Shi, Y. E, Zhuang, X. M., Cao, L. L., Gou, S. Y., Xiong, Y., Lai, W. F., Wang, Z. G., Rogach, A. L. (2019). Copper nanocluster based transparent ultraviolet shielding polymer films. ChemNanoMat, 5, 110-115.
1. Lai, W. F.*, Lin, M. C., Tang, G. P.* (2018). A phytochemical-based copolymer derived from Coriolus versicolor polysaccharopeptides for gene delivery. Molecules, 23(9), 2273.
2. Wang, Z. G., Shi, Y. E., Yang, X. M., Xiong, Y., Li, Y. X., Chen, B. K., Lai, W. F.*, & Rogach, A. L.* (2018). Water-soluble biocompatible copolymer hypromellose grafted chitosan able to load exogenous agents and copper nanoclusters with aggregation induced emission. Advanced Functional Materials, 28(34), 1802848.
3. Lai, W. F.*, & Wong, W. T. (2018). Design of polymeric gene carriers for effective intracellular delivery. Trends in Biotechnology, 36(7), 713-728.
4. Lai, W. F.*, Rogach, A. L., Wong, W. T. (2018). One-pot synthesis of an emulsion-templated hydrogel-microsphere composite with tunable properties. Composites Part A: Applied Science and Manufacturing, 113, 318-329.
5. Li, Y., He, Z. D., Zheng, Q. E., Hu, C. S., Lai, W. F.* (2018). Hydroxypropyl-β-cyclodextrin for delivery of baicalin via inclusion complexation by supercritical fluid encapsulation. Molecules, 23, 1169.
6. Lin, J. L., Hu, C. S., He, J. X., Fu, Q. H., Huang, N. N., Chen, D. S., Lai, W. F., Liu, X. Y., Liu, Z. G. (2018). Cathepsin D as a new allergen from Dermatophagoides farina. International Journal of Clinical and Experimental Medicine, 11(11), 11804-11815.
7. Lai, W. F.*, Susha, A. S., Rogach, A. L., Wang, G. A., Hu, W. J., Huang, M. J., Wong, W. T.* (2017). Electrospray-mediated preparation of compositionally homogeneous core-shell hydrogel microspheres for sustained drug release. RSC Advances, 7(70), 44482-44491.
8. Lai, W. F.*, & Rogach, A. (2017). Hydrogel-based materials for delivery of herbal medicines. ACS Applied Materials & Interfaces, 9(3), 11309-11320.
9. Wang, Z. G., Xiong, Y., Kershaw, S., Chen, B. K., Yang, X. M., Goswami, N., Lai, W. F., Xie, J. P., Rogach, A. (2017). In situ fabrication of flexible, thermally stable, large area, strongly luminescent copper nanocluster/polymer composite films. Chemistry of Materials, 29(23), 10206-10211.
10. Lai, W. F.*, Rogach, A., & Wong, W. T.* (2017). Molecular design of upconversion nanoparticles for gene delivery. Chemical Science, 8(11), 7339-7358.
11. Lai, W. F.*, Susha, A., & Rogach, A. (2016). Multi-compartment microgel beads for co-delivery of multiple drugs at individual release rates. ACS Applied Materials & Interfaces, 8(1), 871-880.
12. Lai, W. F.*, & Shum, H. C.* (2016). A stimuli-responsive nanoparticulate system using poly(ethylenimine)-graft-polysorbate for controlled protein release. Nanoscale, 8(1), 517-528.
13. Lai, W. F.*, & He, Z. D.* (2016). Design and fabrication of hydrogel-based nanoparticulate systems for in vivo drug delivery. Journal of Controlled Release, 243, 269-282.
14. Lai, W. F., & Lin, M. C. M. (2015). Chemotherapeutic drugs interfere with gene delivery mediated by chitosan-graft-poly(ethylenimine). PLoS One, 10(5), e0126367.
15. Lai, W. F., Oka, K., & Jung, H. S. (2015). Advanced functional polymers for regenerative and therapeutic dentistry. Oral Diseases, 21(5), 550-557.
16. Lai, W. F.*, & Lin, M. C. M. (2015). Treating cutaneous aging with patented technologies. Journal of Biosciences, 40(2), 209-216.
17. Lai, W. F., & Lin, M. C. M. (2015). Folate-conjugated chitosan-poly(ethylenimine) copolymer as an efficient and safe vector for gene delivery in cancer cells. Current Gene Therapy, 15(5), 472-480.
18. Lai, W. F.* (2015). Microfluidic methods for non-viral gene delivery. Current Gene Therapy, 15(1), 55-63.
19. Lai, W. F., & Shum, H. C. (2015). Hypromellose-graft-chitosan and its polyelectrolyte complex as novel systems for sustained drug delivery. ACS Applied Materials & Interfaces, 7(19), 10501-10510.
20. Lai, W. F.* (2014). Cyclodextrins in non-viral gene delivery. Biomaterials, 35(1), 401-411.
21. Lai, W. F., Lee, J. M., & Jung, H. S. (2014). Molecular and engineering approaches to regenerate and repair teeth in mammals. Cellular and Molecular Life Sciences, 71(9), 1691-1701.
22. Lai, W. F.*, & Siu, P. M. (2014). MicroRNAs as regulators of cutaneous wound healing. Journal of Biosciences, 39(3), 519-524.
23. Lai, W. F., Green, D. W., & Jung, H. S. (2014). Linear poly(ethylenimine) cross-linked by methyl-β-cyclodextrin for gene delivery. Current Gene Therapy, 14(4), 258-268.
24. Lai, W. F., & Jung, H. S. (2014). Cell transfection with a β-cyclodextrin-PEI-propane-1,2,3-triol nanopolymer. PLoS One, 9(6), e100258.
25. Green, D. W., Lai, W. F., & Jung, H. S. (2014). Evolving marine biostructures for regenerative medicine. Marine Drugs, 12(5), 2877-2912.
26. Lee, J. M., Kwon, H. J., Lai, W. F., & Jung, H. S. (2014). Requirement of Runx3 in pulmonary vasculogenesis. Cell and Tissue Research, 356(2), 445-449.
27. Wang, P. W., Lai, W. F., Li, M. J., Xu, F., Yalamanchili, H. K., Lovell-Badge, R., & Wang, J. W. (2013). Inference of gene-phenotype associations via protein-protein interaction and orthology. PLoS One, 8(10), e77478.
28. Lai, W. F.* (2013). Nucleic acid delivery: roles in biogerontological interventions. Ageing Research Reviews, 12(1), 310-315.
29. Lai, W. F.* (2012). Protein kinases as targets for interventive biogerontology: overview and perspectives. Experimental Gerontology, 47(4), 290-294.
30. Lai, W. F.* (2011). In vivo nucleic acid delivery with PEI and its derivatives: current status and perspectives. Expert Review of Medical Devices, 8(2), 173-185.
31. Lai, W. F.*, & Chan, Z. C. Y. (2011). Beyond sole longevity: a social perspective on healthspan extension. Rejuvenation Research, 14(1): 83-88.
32. Lai, W. F.* (2011). Nucleic acid therapy for lifespan prolongation: present and future. Journal of Biosciences, 36(4), 725-729.
33. Chan, Z. C. Y. ?,*, & Lai, W. F.?,* (2009). Revisiting the melamine contamination event in China: implications for ethics in food technology. Trends in Food Science and Technology, 20(8), 366-373. (? Equal first authorship)
34. Lai, W. F.*, & Lin, M. C. M. (2009). Nucleic acid delivery with chitosan and its derivatives, Journal of Controlled Release, 134(3), 158-168.