Company Filing History:
Years Active: 1998-2000
Title: Innovations of Peter Kocis in Synthetic Test Compound Libraries
Introduction
Peter Kocis is an accomplished inventor based in Oro Valley, AZ (US). He has made significant contributions to the field of synthetic test compounds, holding two patents that showcase his innovative approach to library synthesis. His work focuses on the development of topologically segregated, encoded solid phase libraries, which are essential for identifying and characterizing molecules of interest.
Latest Patents
Kocis's latest patents include inventions related to libraries of synthetic test compounds attached to separate phase synthesis supports. These libraries also contain coding molecules that encode the structure of the synthetic test compounds. The synthetic test compounds can have various backbone structures with linkages such as amide, urea, carbamate, ester, amino, sulfide, disulfide, or carbon-carbon. Additionally, the synthetic test compounds can serve as molecular scaffolds, including derivatives of carbohydrates, steroids, sugars, and heterocyclic structures. His inventions also encompass methods for synthesizing these libraries and utilizing them to identify and characterize molecules of interest.
Career Highlights
Peter Kocis is currently associated with Selectide Corporation, where he continues to advance his research and development efforts. His work has positioned him as a key figure in the field of synthetic chemistry, contributing to the understanding and application of synthetic test compounds.
Collaborations
Kocis collaborates with notable colleagues, including Michal Lebl and Kit S Lam, who share his passion for innovation in synthetic chemistry. Their combined expertise enhances the research and development initiatives at Selectide Corporation.
Conclusion
Peter Kocis's innovative work in synthetic test compounds and library synthesis has made a significant impact in the field. His patents reflect a deep understanding of molecular structures and their applications, paving the way for future advancements in synthetic chemistry.