Company Filing History:
Years Active: 2011
Title: The Innovative Contributions of Stephanie Morar
Introduction
Stephanie Morar is a notable inventor based in Toulouse, France. She has made significant strides in the field of particulate suspensions, particularly for applications in foodstuff, cosmetics, and pharmaceuticals. Her innovative approach has led to the development of a unique patent that addresses critical challenges in the formulation of gel beads.
Latest Patents
Stephanie Morar holds a patent titled "Density-controlled particulate suspensions for foodstuff, cosmetic, pharmaceutical and other uses." This invention focuses on achieving a stable and uniform distribution of gel beads or other particulate materials within a liquid medium. By incorporating a density-reducing agent within the gel beads, she has enabled the particles to achieve a desired bulk density, which is essential for preventing migration due to gravity and settling during storage. The gel beads formulated with agar are particularly suitable for use in cosmetics and can withstand modestly elevated temperatures. This patent also outlines various applications beyond cosmetics, including pharmaceuticals and foodstuff.
Career Highlights
Morar's career is marked by her dedication to innovation and her contributions to the field of particulate suspensions. Her work at Kobo Products, Inc. has allowed her to explore and develop new formulations that enhance product stability and performance. Her expertise in this area has positioned her as a leader in the industry.
Collaborations
Throughout her career, Stephanie has collaborated with talented individuals such as Li Ding and David S Schlossman. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking solutions.
Conclusion
Stephanie Morar's contributions to the field of particulate suspensions exemplify the impact of innovative thinking in addressing real-world challenges. Her patent not only enhances the stability of gel beads but also opens new avenues for applications in various industries. Her work continues to inspire future innovations in the field.