Company Filing History:
Years Active: 1998
Title: **Cheryl Lynn Peterson - Innovator of Non-Sweating Lipsticks**
Introduction
Cheryl Lynn Peterson, an inventive mind based in Cincinnati, OH, has made her mark in the beauty industry with her innovative approach to cosmetics. As a key contributor at Procter & Gamble, her work has led to the creation of a unique lipstick formulation aimed at enhancing comfort for users in various climates.
Latest Patents
Cheryl holds a patent for her invention of non-sweating lipsticks, which is described in a composition that combines wax, emollient, and a gelling agent. This formula is specifically designed to retain emollient oils even in high humidity and temperatures, ensuring that the lipstick remains effective and pleasant to wear. Moreover, the inclusion of moisturizers in her formulation allows for the delivery of hydrating properties to the lips through a stable, non-polar medium.
Career Highlights
Throughout her career at Procter & Gamble, Cheryl has focused on developing products that meet consumer needs for functionality and comfort. Her groundbreaking work has not only enhanced the performance of lip cosmetics but has also contributed to the company's reputation for innovation in personal care products.
Collaborations
Cheryl has collaborated with fellow innovators such as Magda El-Nokaly and Michael Lee Vatter, showcasing her ability to work within a team of talented professionals to drive forward-thinking ideas and practical solutions in the cosmetics sector. These partnerships reflect her commitment to fostering creativity and collaboration in product development.
Conclusion
In summary, Cheryl Lynn Peterson exemplifies the spirit of innovation within the beauty industry. With her patented formulation of non-sweating lipsticks, she has significantly contributed to the advancement of cosmetic products, ensuring that they can withstand various environmental conditions while providing essential hydration. Her work at Procter & Gamble will undoubtedly continue to influence future developments in cosmetic technology.