Company Filing History:
Years Active: 2022-2025
Title: Innovations of Donald Rogness in Carbonyl Chemistry
Introduction
Donald Rogness is a notable inventor based in Del Mar, California, who has made significant contributions to the field of carbonyl chemistry. He holds three patents that showcase his innovative approaches to synthesizing valuable chemical compounds. His work has implications in various industries, particularly in the production of lactic acid and furan derivatives.
Latest Patents
Rogness's latest patents include processes for the dehydration and cracking of alpha-, beta-dihydroxy carbonyl compounds to produce lactic acid and other products. These processes involve transforming a starting compound with a carbonyl functional group and hydroxy-substituted carbon atoms at the alpha and beta positions. The method allows for the preservation of carbonyl groups while generating cracked products with fewer carbon atoms. Another significant patent focuses on the dehydration and cyclization of alpha-, beta-dihydroxy carbonyl compounds to synthesize 2-substituted furan derivatives, such as furan dicarboxylic acid (FDCA). This innovative approach also includes optional oxidation steps to enhance the final product.
Career Highlights
Donald Rogness is associated with Archer Daniels Midland Company, where he applies his expertise in chemical processes. His work has contributed to advancements in the synthesis of important chemical intermediates and end products. His innovative methods have the potential to improve efficiency and sustainability in chemical manufacturing.
Collaborations
Rogness has collaborated with notable coworkers, including James F. Brazdil and Chi-Cheng Ma. Their combined expertise has likely fostered a productive environment for innovation and research within their field.
Conclusion
Donald Rogness's contributions to carbonyl chemistry through his patents reflect his commitment to innovation and advancement in chemical processes. His work continues to influence the industry and pave the way for future developments.