Company Filing History:
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1 out of 1 Years Active: 2008
Title: **Innovative Insights: The Journey of Inventor Mengya Ge**
Introduction
Mengya Ge, an accomplished inventor based in Hengdian Dongyang, China, has made significant contributions to the field of pharmaceutical sciences. He is recognized for his innovative approach in the preparation of memantine hydrochloride, a compound known for its therapeutic applications. With one patent to his name, Mengya Ge exemplifies the spirit of innovation in the pharmaceutical industry.
Latest Patents
Mengya Ge holds a patent for a method of preparing memantine hydrochloride. This method includes several steps: reacting 1-bromo-3,5-dimethyl adamantane with urea and formic acid, where formic acid also functions as the solvent. The process continues with hydrolysis using aqueous inorganic acid, followed by alkalification, extraction, and acidification with hydrochloric acid to collect the target compound. This efficient method employs inexpensive raw materials and is conducted in a homogeneous phase under mild conditions. It boasts a high yield of 69.5% and excellent product purity, reaching 99.98% post recrystallization with a melting point of 332°C (DSC).
Career Highlights
Throughout his career, Mengya Ge has collaborated with prestigious organizations, including the Shanghai Institute of Pharmaceutical Industry and Zhejiang Kangyu Pharmaceutical Co., Ltd. His extensive experience and dedication to scientific research showcase his commitment to enhancing pharmaceutical development.
Collaborations
Mengya Ge has worked alongside notable colleagues, including Fuli Zhang and Meng Hu. These collaborations underline the importance of teamwork in driving innovation and the advancement of pharmaceutical research.
Conclusion
In summary, Mengya Ge's innovative methods in preparing memantine hydrochloride highlight his contributions to the pharmaceutical industry. His patent represents a leap forward in the efficiency and cost-effectiveness of pharmaceutical preparations. As he continues to develop his expertise and collaborate with fellow researchers, Mengya Ge remains a key figure in pioneering advancements within the field.