Lecture time

December 25, 2025 10:00-12:00

Lecture location

Wang Ruibing , professor and doctoral supervisor of the University of Macau, fellow of the Royal Society of Chemistry, member of the Special Committee on Supramolecular Chemistry of the Chinese Chemical Society, associate editor of Chinese Chemical Letters and associate editor of ACS Applied Bio Materials. He graduated from the Department of Chemistry of Jilin University and the Department of Chemistry of Queen's University of Canada respectively with a bachelor's degree and a doctorate. Mainly researching drug delivery systems and cell preparations based on supramolecular systems. He has published more than 250 articles, with a total of more than 12,000 citations, H-index 62 (WoS). He has successively presided over 4 National Natural Science Foundation of China projects, 1 key project of the Ministry of Science and Technology’s National Key R&D Program “Inter-Governmental International Scientific and Technological Innovation Cooperation”, multiple Macao Science and Technology Development Fund projects, and Shenzhen-Hong Kong-Macao Science and Technology Plan and other scientific research projects. In recent years, his research achievements have successively won the Macau Science and Technology Award, Natural Science Award, and Technological Invention Awards, and he has been continuously selected into the list of the world's top 2% scientists released by Stanford University.

As a new generation of biomedical materials, cell preparations are cells obtained through genetic engineering or chemical modification of cells and have specific biological functions or therapeutic effects. Although cell preparations have made significant progress, genetic engineering technology and traditional chemical modification methods are complex, time-consuming, and have the potential to damage cell functionality. In response to this scientific problem and the treatment needs of several major diseases such as tumors and inflammatory diseases, we use supramolecular chemistry as a tool and new cell preparations as the goal. We use bio-orthogonal multiple supramolecular interactions to modify and process cells, put forward the concept of supramolecular engineered cells, and established a cell membrane The method of supramolecular assembly loaded with functional materials has proposed a strategy for intracellular supramolecular cross-linking and aggregation, developed a way for supramolecular assembly to fuse organelles to regulate cell functions, and developed a series of new cell preparations based on supramolecular assembly for targeted treatment of inflammation, infection, tumors and other diseases.