Company Filing History:
Years Active: 2023
Title: Meike Nicole Leiske: Innovator in Organic Polymer Stabilization
Introduction
Meike Nicole Leiske, based in Jena, Germany, is an accomplished inventor recognized for her significant contributions to the field of polymer chemistry. She holds one patent that showcases her innovative approach to stabilizing organic polymer particles through the use of poly(oxazoline) stabilizers.
Latest Patents
Her noteworthy patent is titled "Organic polymer particles containing poly(oxazoline) stabilizers and use of poly(oxazolines) for stabilizing organic polymer particles". This invention pertains to compositions that incorporate water-soluble poly(oxazoline) and a variety of organic polymer particles, including polyolefins, polyvinyl aromatics, polyvinyl esters, polyesters, and more. The invention highlights the utility of poly(oxazoline) as a stabilizer, particularly in the freeze-drying process of aqueous polymer dispersions, marking a significant advancement in polymer stabilization technology.
Career Highlights
Meike's professional journey is anchored at Friedrich Schiller University Jena, where she engages in cutting-edge research that bridges theoretical knowledge and practical applications in polymer chemistry. Her work has significant implications in various industrial applications, leading to improved materials and processes in the field.
Collaborations
Throughout her career, Meike has collaborated with esteemed colleagues, including Anja Traeger and Ulrich Sigmar Schubert. These partnerships have fostered an environment of innovation, essential for developing her patented technologies and exploring new avenues in polymer science.
Conclusion
Meike Nicole Leiske stands out as a pioneering inventor in the domain of organic polymer stabilization. Her dedication to advancing polymer chemistry not only contributes to academic research but also holds promise for numerous practical applications. As she continues her work at Friedrich Schiller University Jena, her future innovations are eagerly anticipated within the scientific community and industry alike.