Lin Quanqian, Ph.D., Associate Professor, Supervisor of Postgraduate, visiting scholar of CSIRO, Australia, and the group leader of Ocular Implant Biomaterials Group of Wenzhou Medical University. He was graduated from the Department of polymer, Zhejiang University, with a Doctor's degree in Engineering in March 2010. Then he joined the school of Ophthalmology and Optometry (School of Biomedical Engineering) of Wenzhou Medical University and Affiliated Eye Hospital in May 2010, focused on the research of the ocular biomaterials. Up to now, he has published more than 40 papers in international journals, such as Biomaterials, Journal of Controlled Release, Journal of Materials Chemistry B, etc. As principal investigator, he has leaded 14 scientific research projects, including National Key R & D projects, National Natural Science Foundation youth fund projects and general projects, Zhejiang Provincial Natural Science Foundation youth fund projects and general projects, and Zhejiang medical and health science and Technology Program, etc. He was selected into the Zhejiang ten thousand talents program, Zhejiang 151 talent project, Wenzhou youth top-notch talent project, the first level of Wenzhou 551 talent project, and the high-level youth talent funding programs of Wenzhou Medical University, etc.
1)Dual drug delivery from hydrophobic and hydrophilic intraocular lenses: in-vitro and in-vivo studies, Ana Topete, Junmei Tang, Xiaoxu Ding, Helena P Filipe, Jorge Saraiva, Ana Paula Serro, Quankui Lin*, Benilde Saramago*, Journal of Controlled Release, 2020, 326: 245-255.
2)Cellular microenvironment-sensitive drug eluting coating on intraocular lens for enhanced PCO prevention and in vivo biocompatibility. Han Yuemei#, Tang Junmei#, Liu Sihao, Zhao Xia, Wang Rui, Xia Jiayi, Qin Chen, Chen Hao*, Lin Quankui*, ACS Applied Bio Materials, 2020, 3, 6:3582-3593.
3)Han Yuemei#, Tang Junmei#, Xia Jiayi, Wang Rui, Qin Chen, Liu Sihao, Zhao Xia, Chen Hao*, Lin Quankui*, Anti-adhesive and anti-proliferative synergistic surface modification of intraocular lens for reduced posterior capsular opacification. International Journal of Nanomedicine, 2019, 14:9047–906