Company Filing History:
Years Active: 2024-2025
Title: Innovations of Meijun Wei in Catalysis and Polymer Science
Introduction
Meijun Wei is a prominent inventor based in Changzhou, China, known for his significant contributions to the field of catalysis and polymer science. With a total of five patents to his name, Wei has developed innovative methods and materials that enhance the production of polylactic acid, a biodegradable polymer with numerous applications.
Latest Patents
Wei's latest patents include the development of an isopoly-molybdic acid coordination polymer designed for catalyzing the ring-opening polymerization of lactide. This polymer, characterized by the chemical formula [MoO(μ-OH)(Htrz)], utilizes a 1,2,4-triazole ligand and exhibits high catalytic activity. The synthesis process is straightforward, yielding a product with a weight average molecular weight exceeding 110,000, making it suitable for medical and packaging applications. Another notable patent involves an organic frame material containing isopoly-molybdic acid metal, represented by the formula [Cu(tfbtb)(β-MoO)0.5(HO)]. This material also demonstrates high catalytic efficiency in lactide polymerization, producing polylactic acid with a molecular weight over 60,000.
Career Highlights
Meijun Wei is affiliated with Changzhou University, where he conducts research and development in polymer science. His work focuses on creating efficient catalysts that facilitate the production of environmentally friendly materials. Wei's innovative approaches have positioned him as a key figure in advancing sustainable polymer technologies.
Collaborations
Wei collaborates with notable colleagues, including Mingyang He and Shengchun Chen, who contribute to his research endeavors. Their combined expertise enhances the development of new materials and methods in the field of catalysis.
Conclusion
Meijun Wei's contributions to catalysis and polymer science through his innovative patents have significant implications for sustainable materials. His work continues to influence the development of biodegradable polymers, showcasing the importance of research in addressing environmental challenges.