Company Filing History:
Years Active: 1987
Title: Inventor Anne Menesguen: A Pioneer in Zeolite Preparation
Introduction
Anne Menesguen, a talented inventor based in Paris, France, has made significant contributions to the field of material science, particularly in the preparation of zeolites. With one notable patent to her name, she has demonstrated her innovative prowess in developing materials that have extensive applications in detergents.
Latest Patents
Menesguen's patent focuses on the preparation of zeolites 4A and/or 13X, which are particularly well-suited for detergency. Her research outlines a process where an aqueous solution of sodium silicate and sodium aluminate is introduced simultaneously into an unagitated reaction zone. This innovative method allows for continuous intimate mixing and subsequent gelation, leading to the crystallization of zeolite from a homogeneous gel. This patent underscores the importance of zeolites in mass production and their role in creating effective cleaning products.
Career Highlights
Anne Menesguen is affiliated with Rhone-Poulenc Chimie de Base, a company known for its expertise in chemical production. Her work has been instrumental not only in advancing zeolite technology but also in enhancing the industrial processes for their production. Menesguen's innovative techniques have paved the way for the practical application of zeolites in various industries.
Collaborations
Throughout her career, Menesguen has worked closely with Bertrand Latourrette. Their collaboration exemplifies the importance of teamwork in driving innovation and achieving breakthroughs in chemical processes. The synergy between the two inventors has contributed to enhanced methodologies for zeolite preparation.
Conclusion
Anne Menesguen's contributions to the field of zeolite preparation have marked a significant milestone in the development of materials for detergents. Her patented process reflects a blend of innovation and practical application, showcasing her talents as an inventor. As the industry continues to evolve, her work will undoubtedly inspire future advancements in material sciences and chemical production.