Location History:
- Kasugai, JP (2022)
- Aichi, JP (2022)
Company Filing History:
Years Active: 2022
Title: Innovations of Tomohiro Hattori: Advancing Amide Synthesis
Introduction
Tomohiro Hattori, based in Kasugai, Japan, is a distinguished inventor known for his contributions to the field of organic chemistry. With a focus on the synthesis of amide compounds, he holds two patents that showcase innovative methods to efficiently produce these essential chemical structures.
Latest Patents
Hattori's recent patents involve groundbreaking methodologies for the production of amide compounds. The first patent details a novel method that allows for the highly stereoselective amidation between multiple amino acids and/or peptides. This technique is notable for its efficiency and precision, utilizing a Lewis acid catalyst and a silylating agent to synthesize a compound of general formula (3) by forming an amide bond between specified components.
The second patent also focuses on amide compound production, emphasizing high stereochemical selectivity. This method involves a unique amidation step that reacts an amino compound with an aminoester compound, facilitated by a catalyst comprising a metal compound. This innovative approach aims to increase the productivity and specificity in synthesizing crucial chemical entities.
Career Highlights
Tomohiro Hattori is affiliated with the Chubu University Educational Foundation, where he contributes to advancing research and development in his field. His expertise in organic chemistry and method development highlights his role as a pivotal figure in academic and industrial applications of amide synthesis.
Collaborations
Throughout his career, Hattori has collaborated with fellow researchers such as Hisashi Yamamoto and Wataru Muramatsu. These collaborations foster a productive environment for innovation, contributing to the ongoing advancement of chemical synthesis methods.
Conclusion
Tomohiro Hattori's work exemplifies the innovative spirit of modern science. His patents reflect significant advancements in the production of amide compounds, showcasing his dedication to developing efficient and selective synthetic methods. As he continues to collaborate with esteemed colleagues, Hattori will undoubtedly remain a key contributor to the field of organic chemistry.