Cora M Leibig

Title: Cora M Leibig: Innovator in Hydrogenated Block Copolymer Technology

Introduction

Cora M Leibig, an accomplished inventor based in Midland, MI, has made significant contributions to the field of polymer chemistry. With a total of two patents to her name, Cora has focused her research on innovative hydrogenated block copolymers, which serve various industrial applications.

Latest Patents

Cora's latest innovations include:

1. **Hydrogenated block copolymers having varying sizes of hydrogenated vinyl aromatic blocks** - This patent presents a unique composition comprising an alternating hydrogenated block copolymer that features at least two hydrogenated vinyl aromatic polymer blocks along with at least one conjugated diene polymer block. The invention emphasizes the potential for differing average molecular weights (Mn) among each block, enhancing the material's versatility.

2. **Hydrogenated block copolymer compositions** - This invention focuses on a composition of a hydrogenated block copolymer derived from vinyl aromatic and conjugated diene polymers. It showcases a lamellar morphology coupled with a high level of aromatic hydrogenation.

Career Highlights

Throughout her career, Cora has been associated with notable organizations such as Dow Global Technology Inc. and The Dow Chemical Company. Her work in these prestigious companies showcases her commitment and expertise in the field, making her a respected figure among her peers.

Collaborations

Cora's collaborative spirit is highlighted by her work alongside esteemed colleagues such as Stephen F Hahn and Jerry L Hahnfeld. These professional relationships have undoubtedly contributed to the advancement of the technologies she has developed.

Conclusion

Cora M Leibig exemplifies innovation and dedication in the realm of polymer technology. Her patented advancements in hydrogenated block copolymers not only reflect her expertise but also contribute significantly to ongoing developments in the industry. As technology continues to evolve, her work will undoubtedly influence future research and applications in this field.