At present, polymer materials are generally mainly bulk plastic products, and can be divided into general plastics, engineering plastics, special plastics, etc. according to their application scenarios. With the rapid development of 3C digital and biopharmaceutical industries, polymer functional materials with specific properties have become a hot topic of attention in the research and industry. However, the development of new polymer materials often faces many difficulties such as difficulty in controlling molecular weight and distribution, difficulty in characterizing system, and complex structure-performance relationships. Therefore, the innovation speed of polymer materials is far less than that of small-molecular drugs. Therefore, it is of great significance to develop a synthetic strategy that can efficiently prepare large amounts of functionalized small molecules and polymers. 

    To this end, it may be possible to draw on the "diversity-oriented synthesis" strategy in organic small molecule synthesis to design synthesis strategies that can diverge the preparation of multiple functional polymers from a small number of initial small molecules to improve the efficiency of material development.