Company Filing History:
Years Active: 2015-2020
Title: Innovations in Automated Synthesis by Junqi Li
Introduction
Junqi Li is an accomplished inventor based in Champaign, IL (US). He has made significant contributions to the field of chemistry, particularly in the automated synthesis of small molecules. With a total of 4 patents, his work focuses on enhancing the efficiency and selectivity of chemical synthesis processes.
Latest Patents
One of Junqi Li's latest patents is titled "Automated synthesis of small molecules using chiral, non-racemic boronates." This patent provides methods for making and using chiral, non-racemic protected organoboronic acids, including pinene-derived iminodiacetic acid (PIDA) boronates. These methods enable the stereoselective synthesis of organic molecules. The patent also outlines techniques for purifying PIDA boronates from solution and deprotecting boronic acids from their PIDA ligands. The purification and deprotection methods can be integrated with coupling or other reactions involving boronic acids. Iterative cycles of deprotection, coupling, and purification can be performed to synthesize chiral, non-racemic compounds. Additionally, the patent describes an automated small molecule synthesizer apparatus designed for performing automated stereoselective synthesis using these methods.
Career Highlights
Junqi Li is affiliated with the University of Illinois, where he continues to advance research in chemical synthesis. His innovative approaches have garnered attention in the scientific community, contributing to the development of automated processes that enhance the efficiency of chemical reactions.
Collaborations
Throughout his career, Junqi Li has collaborated with notable colleagues, including Martin D Burke and Eric P Gillis. These collaborations have further enriched his research and expanded the impact of his inventions.
Conclusion
Junqi Li's work in automated synthesis represents a significant advancement in the field of chemistry. His innovative methods and apparatus are paving the way for more efficient and selective chemical synthesis processes.