Company Filing History:
Years Active: 1992
Title: Phyllis M Ansher-Jackson: Innovator in Hair Conditioning Compositions
Introduction
Phyllis M Ansher-Jackson is a notable inventor based in Cincinnati, OH (US). She has made significant contributions to the field of hair care through her innovative patent. Her work focuses on improving hair conditioning compositions, providing a cleaner and more effective alternative to traditional products.
Latest Patents
Phyllis holds a patent for "Clean conditioning compositions for hair." This invention discloses hair conditioning compositions that offer cleaner hair conditioning than traditional hair conditioners based on quaternary ammonium compounds and lipid materials. The compositions are based on a substantially non-depositing vehicle base, which includes a primary thickening agent that is a nonionic long chain alkylated cellulose ether, a secondary thickening agent that is a water-insoluble surfactant, and a compatible solvent. The mixture of conditioning agents includes silicone conditioning agents, cationic surfactant conditioning agents, and high levels of fatty alcohol conditioning agents. These compositions provide optimized hair conditioning without the drawbacks associated with traditional hair conditioners, such as a dirty hair feel and quick resoiling.
Career Highlights
Phyllis is associated with The Procter & Gamble Company, where she has contributed her expertise in product development and innovation. Her work has led to advancements in hair care formulations, enhancing the user experience and effectiveness of hair conditioning products.
Collaborations
Phyllis has collaborated with notable coworkers, including Sue A Etter and Kathleen Bridget Jividen. These collaborations have fostered a creative environment that encourages innovation and the development of effective hair care solutions.
Conclusion
Phyllis M Ansher-Jackson is a pioneering inventor whose work in hair conditioning compositions has made a significant impact in the beauty industry. Her innovative approach continues to influence the development of effective hair care products.