Company Filing History:
Years Active: 2013
Title: Inventor Spotlight: Anne De Sousa Delgado
Introduction
Anne De Sousa Delgado is a prominent inventor hailing from Moilins de Rei, Spain. She has made significant contributions to the field of polymer chemistry, particularly in the area of catalytic systems for the oligomerization of lactide and glycolide. With one patent to her name, her work stands out in the realm of innovative chemical processes.
Latest Patents
Anne's notable patent is titled "Use of a catalytic system for lactide and glycolide (co) oligomerization." This invention presents a catalytic ring-opening system that utilizes a strongly acidic ion-exchange resin-type polymeric catalyst. It also incorporates a (co)oligomerization additive, aimed at enhancing the efficiency of the lactide and glycolide (co)oligomerization process. Through this method, significant advancements in the production of biodegradable polymers can be achieved.
Career Highlights
Currently, Anne De Sousa Delgado is associated with Ipsen Pharma S.A.S, where she continues to drive innovation in her field. Her expertise in catalysis and polymer science has positioned her as a key player in her industry. Anne's dedication to research and development has allowed her to contribute valuable insights into sustainable materials development.
Collaborations
Throughout her career, Anne has collaborated with esteemed colleagues including Frédéric Ben and Didier Bourissou. These partnerships have fostered a productive environment for innovation, enabling cross-disciplinary research that enhances the overall impact of their work in the chemical and pharmaceutical sectors.
Conclusion
Anne De Sousa Delgado exemplifies the spirit of innovation through her research and inventions. Her patent on the catalytic system for lactide and glycolide oligomerization illustrates her commitment to advancing polymer technology. As she continues her work at Ipsen Pharma S.A.S, the future promises further contributions to the field of sustainable materials and chemical processes.