Company Filing History:
Years Active: 2018
Title: Paul E Gormisky: Innovator in Catalyst-Controlled Aliphatic C—H Oxidations
Introduction
Paul E Gormisky is a notable inventor based in Watertown, MA (US). He has made significant contributions to the field of chemistry, particularly in the development of catalyst systems for aliphatic C—H oxidations. His innovative work has implications for various applications in chemical synthesis and industrial processes.
Latest Patents
Gormisky holds a patent for his invention titled "Catalyst-controlled aliphatic C—H oxidations." This invention provides simple small molecule, non-heme iron catalyst systems with a broad substrate scope. It can predictably enhance or overturn a substrate's inherent reactivity preference for sp3-hybridized C—H bond oxidation. The invention also includes methods for selective aliphatic C—H bond oxidation. Furthermore, a structure-based catalyst reactivity model is disclosed that quantitatively correlates the innate physical properties of the substrate to the site-selectivities observed as a function of the catalyst. The catalyst systems can be used in combination with oxidants such as hydrogen peroxide to effect highly selective oxidations of unactivated sp3 C—H bonds over a broad range of substrates. Gormisky's patent portfolio includes 1 patent.
Career Highlights
Gormisky is affiliated with the University of Illinois, where he continues to advance research in catalysis and oxidation processes. His work has garnered attention for its potential to revolutionize the way chemical reactions are conducted, particularly in the context of environmentally friendly practices.
Collaborations
One of Gormisky's notable collaborators is M Christina White, with whom he has worked on various research projects. Their partnership has contributed to the advancement of knowledge in the field of catalysis.
Conclusion
Paul E Gormisky is a distinguished inventor whose work in catalyst-controlled aliphatic C—H oxidations has the potential to impact the field of chemistry significantly. His innovative approaches and collaborations continue to inspire advancements in chemical synthesis and industrial applications.