Karin Van Der Helm-Rademaker

Title: Innovator Spotlight: Karin Van Der Helm-Rademaker

Introduction

Karin Van Der Helm-Rademaker, an inventive mind based in Gouda, Netherlands, has made significant contributions to the field of polymer science. With two patents to her name, Karin has focused on developing innovative materials that enhance the functionality and sustainability of polyurethane products.

Latest Patents

Karin's latest patents reflect her expertise in the chemistry of polymers. The first patent involves a co-polymer polyol characterized by an ABA block structure. Each A block consists of numerous hydroxy-carboxylic acid residues, while the B block is composed of dimer fatty residues, including dimer fatty diacid, diol, and diamine residues. Moreover, this innovative co-polymer polyol contains at least two hydroxyl end groups and introduces a method for its production, which could have wide applications in the production of polyurethanes.

Her second patent pertains to a polyurethane formed from a polyisocyanate and a polyester. This polyester incorporates a dimer fatty acid, a C to C diol, and either a C to C dicarboxylic acid or C to C lactide. This invention not only diversifies the available polyester materials but also paves the way for the development of more eco-friendly polyurethane products.

Career Highlights

Karin works with Croda International, Inc., a company renowned for its emphasis on sustainability and innovation in the chemical industry. Throughout her career, she has demonstrated a commitment to advancing polymer technology, specifically through the development of alternative materials that reduce environmental impact.

Collaborations

In her quest for innovation, Karin collaborates with talented colleagues, including Angela Leonarda Maria Smits and Remco Benjamin Van Triet. These partnerships have been vital in accelerating research and enhancing the implementation of their discoveries in practice.

Conclusion

Karin Van Der Helm-Rademaker exemplifies the spirit of innovation within the polymer science domain. Her work has the potential to reshape the landscape of polyurethane materials, making them more efficient and sustainable. Through her patents and collaborative efforts, she continues to contribute to a more sustainable future, benefiting industries and communities alike.