Katherine A Gyure

Title: Inventor Katherine A. Gyure: Pioneering Innovations from Miamisburg, OH

Katherine A. Gyure is an accomplished inventor based in Miamisburg, OH, recognized for her significant contributions to the field of innovative materials and formulations. With a total of three patents to her name, Gyure has made strides in developing advanced technologies that enhance various industrial applications.

Latest Patents

Among her latest patents are two noteworthy innovations. The first patent involves sulfonated-ethylene oxide dispersants for use in preparing microcapsules. This innovative method enables the formation of microcapsules by enwrapping an oily core material in a formaldehyde condensation product, utilizing a specially formulated dispersant. The second patent comprises light-sensitive polymerizable compositions containing silver compounds, which include a combination of a reducing agent, a light-sensitive silver halide, a polymerizable compound, and a coumarin or a ketocoumarin, demonstrating her versatility in developing cutting-edge photohardenable compositions.

Career Highlights

Katherine A. Gyure is associated with the Mead Corporation, a well-known company dedicated to providing innovative solutions in the paper and packaging industry. Her role within the company allows her to harness her expertise in chemical formulations and materials science, contributing to the advancement of product development.

Collaborations

Throughout her career, Katherine has collaborated with esteemed colleagues including William H. Simpson and Rong-Chang Liang. These collaborations have likely fostered innovative ideas and enhanced the development of her patented technologies, affirming the importance of teamwork in the research and development process.

Conclusion

Katherine A. Gyure stands out as an inventor dedicated to advancing technological innovations. Her patents reflect her commitment to research and development, contributing significantly to her field. As she continues her work at the Mead Corporation, her ongoing contributions will undoubtedly shape future advancements in material science and industrial applications.