Company Filing History:
Years Active: 2022
Title: Gabrielle Rose Ashley: Innovator in (Meth)acrylic Oligomers
Introduction
Gabrielle Rose Ashley is a notable inventor based in Kingsport, TN (US). She has made significant contributions to the field of polymer chemistry, particularly through her innovative work on (meth)acrylic oligomers. Her research and inventions have practical applications in various industries, including adhesives and polymer modification.
Latest Patents
Gabrielle holds a patent for her invention of (meth)acrylic oligomers. The invention provides (meth)acrylic oligomers prepared from C1-C20 alkyl and C5-C20 cycloalkyl (meth)acrylates. These oligomers have a molecular weight range, with a Mn of about 300 g/mole to about 3,000 g/mole, a Mw of about 700 g/mole to about 6,000 g/mole, and a Mz of about 900 g/mole to about 10,000 g/mole. The oligomers exhibit a Yellowness Index, according to ASTM E313, of less than 2. They are useful as tackifiers in adhesive compositions and are believed to be beneficial in general polymer modification as plasticizers, leveling agents, viscosity reducers, and for increasing solids content in solvent-borne applications with minimal impact on viscosity. Additionally, the invention includes adhesive compositions and laminate articles coated with these adhesive compositions.
Career Highlights
Throughout her career, Gabrielle has worked with prominent companies in the chemical industry. She has been associated with Synthomer Adhesive Technologies LLC and Eastman Chemical Company, where she has applied her expertise in polymer chemistry to develop innovative solutions.
Collaborations
Gabrielle has collaborated with several professionals in her field, including Christopher Lee Lester and Sarah Exley Goetz. These collaborations have contributed to her success and the advancement of her inventions.
Conclusion
Gabrielle Rose Ashley is a pioneering inventor whose work on (meth)acrylic oligomers has made a significant impact in the field of polymer chemistry. Her contributions continue to influence the development of adhesive technologies and polymer modifications.