Company Filing History:
Years Active: 2024
Title: Innovations of Xichong Ye in Chiral Resolution Methods
Introduction
Xichong Ye is a prominent inventor based in Beijing, China. He has made significant contributions to the field of chiral resolution methods, particularly through his innovative patent. His work focuses on enhancing the efficiency of crystallization processes to obtain optically pure crystals.
Latest Patents
Xichong Ye holds a patent titled "Chiral resolution method mimicking magnetic beneficiation and the magnetic nano-inhibitors for selective enrichment." This invention involves a core-shell nanocomposite formed by the co-assembly of an amphiphilic polymer and hydrophobically modified magnetic nanoparticles. The core consists of a hydrophobically modified magnetic nanomaterial, while the shell is made of the amphiphilic polymer. The unique design allows for the selective enrichment of molecules with the same configuration while inhibiting the crystallization of the other enantiomer in a supersaturated solution. This method can yield optically pure crystals of both enantiomers with over 90% enantiomeric excess in a single crystallization process, achieving a total yield of up to 40%.
Career Highlights
Xichong Ye is affiliated with Peking University, where he continues to advance research in his field. His innovative approaches have garnered attention and recognition within the scientific community. His work not only contributes to academic knowledge but also has practical applications in various industries.
Collaborations
Xichong Ye collaborates with notable colleagues, including Xinhua Wan and Bowen Li. Their combined expertise enhances the research and development efforts in the area of chiral resolution methods.
Conclusion
Xichong Ye's contributions to the field of chiral resolution through his innovative patent demonstrate his commitment to advancing scientific knowledge and practical applications. His work at Peking University and collaborations with esteemed colleagues further solidify his impact in the field.