Company Filing History:
Years Active: 2004
Title: The Innovative Contributions of Stephen A. Baum
Introduction
Stephen A. Baum is a notable inventor based in Encinitas, California. He has made significant contributions to the field of combinatorial chemistry, particularly through his innovative patent. His work focuses on enhancing the efficiency of synthesizing combinatorial libraries, which has implications for various scientific applications.
Latest Patents
Stephen A. Baum holds a patent titled "Nonredundant split/pool synthesis of combinatorial libraries." This invention includes methods for generating combinatorial libraries on solid phase supports. Increased productivity is achieved by pooling all common steps in synthesis without using a tracking or coding system to record the synthetic history of each compound. The methods also allow for the identification of each library component without adding extra synthetic, physical, optical, or electronic encoding steps during library synthesis. This patent represents a significant advancement in the field, enabling the production of various products, such as oligomers and synthetic non-repetitive organic molecules.
Career Highlights
Stephen A. Baum is associated with Nanoscale Combinatorial Synthesis, Inc., where he applies his expertise in combinatorial chemistry. His innovative approaches have contributed to the company's mission of advancing synthetic methodologies. With a focus on productivity and efficiency, Baum's work has the potential to impact various sectors, including pharmaceuticals and materials science.
Collaborations
Stephen A. Baum has collaborated with notable colleagues, including Nikolai Sepetov and Olga L. Issakova. These collaborations have fostered a creative environment that encourages the exchange of ideas and advancements in their respective fields.
Conclusion
Stephen A. Baum's contributions to the field of combinatorial chemistry through his innovative patent demonstrate his commitment to advancing scientific methodologies. His work not only enhances productivity in synthesis but also opens new avenues for research and development.