Kimberly S Hayson

Title: Innovations of Kimberly S. Hayson

Introduction

Kimberly S. Hayson is a notable inventor based in Red House, West Virginia. She has made significant contributions to the field of biodegradable substrates and metal biocides. With a total of 2 patents, her work focuses on enhancing the durability and effectiveness of biodegradable materials.

Latest Patents

Hayson's latest patents include innovative strategies for reducing the leaching of metal biocides from biodegradable substrates. These hybrid strategies involve treating substrates with preservative compositions that contain at least two phases. The first phase is a liquid phase with complexed metal biocide, while the second phase consists of particles containing the metal biocide. This approach allows for a more effective treatment process that is less sensitive to particle size and pH variations.

Another significant patent addresses post-impregnation treatments aimed at improving the distribution of metal biocides in biodegradable substrates. This invention focuses on modifying the distribution of biocides in materials vulnerable to decay, such as wood and starch-based products. The compositions used in this method facilitate the mobilization and redistribution of metal biocides, ensuring that depleted regions of the substrate are effectively replenished.

Career Highlights

Kimberly S. Hayson is associated with Union Carbide Chemicals & Plastics Technology Corporation, where she applies her expertise in developing innovative solutions for biodegradable materials. Her work has contributed to advancements in the field, particularly in enhancing the service life of substrates in various applications.

Collaborations

Hayson has collaborated with notable colleagues, including Brian Terry Keen and William C. Hoffman. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.

Conclusion

Kimberly S. Hayson is a pioneering inventor whose work in biodegradable substrates and metal biocides has made a significant impact in her field. Her innovative patents and collaborations highlight her commitment to advancing technology for sustainable materials.