| 化学专题学术讲座Chemistry Colloquium| Yefeng Tang: Natural Product–Driven Innovation in Synthetic Chemistry | ||||
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时间: 2026年7月2日(周四)下午16:00-17:30 Time: 16:00-17:30, Tuesday, July 2, 2026 主持人: 西湖大学理学院PI 陆海华 博士 Host: Dr. Haihua Lu, PI of School of Science, Westlake University Venue:E10-405 , Yungu Campus, Westlake University 讲座语言:中文 Lecture Language: Chinese
唐叶峰 教授 清华大学 Prof. Yefeng Tang, Tsinghua University 主讲人/Speaker: Professor Yefeng Tang is a tenured professor and Changjiang Distinguished Professor at Tsinghua University. He received his B.S. from Lanzhou University (1999), M.S. from the Chinese Academy of Medical Sciences (2002), and Ph.D. from Peking University (2006) under Prof. Yang Zhen, followed by postdoctoral research with Prof. K.C. Nicolaou at The Scripps Research Institute. He joined Tsinghua in 2010 and was promoted from assistant professor to tenured associate professor and then to full professor. His research focuses on natural product–oriented synthetic chemistry, chemical biology, and medicinal chemistry. He has published over 100 SCI papers, obtained 6 patents, and co-authored 2 textbooks. His honors include the Changjiang Professorship (2022), a National Natural Science Award (Second Class, 2016, third contributor), the Thieme Chemistry Journals Award (2019), among others. 讲座摘要/Abstract: Natural products serve as a key platform for driving synthetic chemistry innovation and as an important source for new drug and lead compound discovery. The Tang group has long focused on natural product–oriented synthetic chemistry, medicinal chemistry, and chemical biology, targeting complex natural products or drug molecules that pose significant synthetic challenges and possess important biological functions. By developing novel synthetic strategies and methodologies, they achieve efficient and general syntheses of target molecules, thereby providing a material basis and technical support for in‑depth studies on biological functions and medicinal potential. Their research philosophy integrates biosynthesis‑inspired approaches with rational design, a paradigm that has enabled the total synthesis of nearly 100 natural products across more than 10 families. This presentation will highlight recent representative accomplishments in natural product–driven synthetic chemistry innovation, with emphasis on total syntheses of complex natural products accomplished via "strain‑driven synthetic strategies" and "enantioselective desymmetrization strategies." 讲座联系人/Contact: 理学院陆海华课题组,邮箱:lina@westlake.edu.cn School of Science, Lu Lab, Email: lina@westlake.edu.cn | ||||
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