【丽湖生工大讲坛第六十四讲】 Functional polylactide, polycarbonate and polysaccharide for biomedical applications
主讲嘉宾:Chih-Kuang Chen 教授
主持人:徐周睿 助理教授
时间:2026年7月9日 周四 下午14: 30-15: 30
地点:深圳大学丽湖校区A2生物医学工程学院一楼精诚坊
嘉宾简介:
Chih-Kuang Chen was conferred with his Ph.D. degree in the Department of Chemical and Biological Engineering at University at Buffalo (USA) in 2014. During the periods of 2014-2017 and 2017-2018, he was an Assistant Professor and an Associate Professor at Feng Chia University (Taiwan). In 2018-2019, he was an Associate Professor at Yunlin University of Science and Technology (Taiwan). In 2019, he moved to Sun Yat-sen University (Taiwan) and was working as an Assistant Professor from 2019 to 2021 and an Associate Professor from 2021 to 2025 in the Department of Materials and Optoelectronic Science. In 2025, he was promoted to a full Professor at the same department. His research interests include polymer chemistry, nanomedicine and polymeric nano/micro structures for drug delivery and regenerative medicine. So far, he has published more than 70 international peer-reviewed papers and had a h-index of 35, total citation times of 4357 (As of June, 2026; according to Google Scholar).

报告简介:
In our laboratory, various polymerization methods such as ring-opening polymerization, ring-opening co-polymerization, living polymerization and different post-functionalization techniques have been employed to create functional polylactide, polycarbonate and polysaccharide having desired functionalities. Through our developed methodologies, these functional polymers can be processed into different microstructures such as nanoparticles, nanofibers, nanocoatings, hydrogels and microporous spheres. Having desired chemical functionalities or cross-linkages, these are able to enhance the bioactivities of the loaded therapeutic agents through the carrier functions such as stimuli-responsiveness, co-loading capacity and sustained release profile. So far, these new microstructures have demonstrated the capabilities on treating different diseases such as infectious/diabetic wounds, tissue adhesion, bacterial infections, cataract, and cancer.

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