Company Filing History:
Years Active: 2008
Title: The Innovative Contributions of Annabelle Guilleux
Introduction
Annabelle Guilleux is a prominent inventor based in Duesseldorf, Germany. With a keen focus on the development of advanced materials, she has made significant strides in the field of binding agents. Her innovative approach has culminated in the granting of one notable patent.
Latest Patents
Annabelle Guilleux holds a patent for "Binding agents having barrier properties." This invention revolves around the formulation of binding agents that include a compound with at least one NCO group and a functional group that cures through radiation, serving as component (A). Additionally, the patent includes a silicon-organic compound serving as component (B) that features both NCO groups and specific functional groups designed to enhance barrier properties. This binding agent can be effectively utilized in various applications, including coating agents, fillers, sealants, and adhesives, particularly in the creation of laminated films with superior barrier characteristics.
Career Highlights
Annabelle’s work at Henkel Kommanditgesellschaft Auf Aktien has positioned her as a key figure within the industry. Her innovative thinking and dedication to material science have helped propel the company forward in its mission to innovate and improve product performance in numerous applications.
Collaborations
Throughout her career, Annabelle has collaborated with esteemed colleagues such as Guenter Henke and Kamil Kalus. These partnerships highlight the collaborative spirit within Henkel, fostering an environment where innovative ideas can flourish and lead to impactful inventions.
Conclusion
Annabelle Guilleux continues to make remarkable contributions to the field of binding agents, embodying the essence of innovation. Her patent demonstrates her ability to create solutions that not only advance technology but also meet real-world needs in various sectors. As she progresses in her career, there is no doubt that her work will continue to leave a lasting impact in the realm of material science.