From October 14 to 17, 2021, the 14th National Conference on Physical Organic Chemistry, sponsored by the Chinese Chemical Association and jointly organized by the Professional Committee of Physical Organic Chemistry and the Shanghai Institute of Organic Chemistry of the Chinese Academy of Sciences, was held in Shanghai. The award ceremony of the "Physical Organic Chemistry Award of the Chinese Chemical Association" was held during the conference. The "Physical Organic Chemistry Award of the Chinese Chemical Association" is awarded every two years, with two "Physical Organic Chemistry Award", "Physical Organic Chemistry Youth Award" and "Physical Organic Chemistry Newcomer Award" each time. The "Physical Organic Chemistry Award of the Chinese Chemical Association" was awarded to Academician Ding Kuiling of Shanghai Jiaotong University and Professor Wei Wang from the National Key Laboratory of Functional Organic Molecular Chemistry of Lanzhou University。

From 1988 to 1998, Professor Wang Wei studied undergraduate, master and doctoral degree in Chemistry Department of Lanzhou University. Since 2000, he has been engaged in post-doctoral research at the University of Stuttgart in Germany and the University of Southern California in the United States. Since returning to his alma mater in 2006, Professor Wang Wei has carried out basic research work in the field of organic porous materials, which is an interdisciplinary field of chemistry and materials, from precise construction, function realization to structure-effect relationship clarification. In terms of precise construction, Professor Wang Wei focused on the scientific problem of "cross-scale precise covalent assembly", developed dynamic covalent bond assembly chemistry, and realized a series of organic products ranging from disordered, to ordered polycrystalline, to single-crystalline organic Creation of porous materials. In terms of functional applications, he realized the cross-fusion of "small organic molecule catalysis" and "porous materials", and expanded a series of applications of covalent organic framework materials in the fields of catalysis, chiral catalysis, and photocatalysis. In terms of structure-activity relationship clarification, he used in-situ solid-state nuclear magnetic resonance and other characteristic research methods to obtain dynamic structural data with high spatial and temporal resolution, which provided core information for clarifying the physical organic chemistry in the cross-scale covalent assembly process.