Nadine Langenscheidt

Title: Nadine Langenscheidt: A Leader in Asymmetric Catalysis Innovations

Introduction: Nadine Langenscheidt is an accomplished inventor based in Aachen, Germany, recognized for her significant contributions to the field of homogeneous catalysis. With a focus on ruthenium complexes, she has developed innovative solutions that impact the preparation of organic compounds.

Latest Patents: Nadine holds a patent for her work on "Ruthenium complexes with (P—P)-coordinated ferrocenyldiphosphine ligands, process for preparing them and their use in homogeneous catalysis". This invention pertains to novel ruthenium complexes utilizing a chiral ferrocenyldiphosphine ligand, where the ruthenium is in the (+II) oxidation state. The ligands coordinate bidentately through P—P interactions, forming cyclic structures with at least eight-membered rings. This technology enables the utilization of these complexes as catalysts for homogeneous asymmetric catalysis, playing a crucial role in organic synthesis.

Career Highlights: Nadine’s innovative work is currently associated with Umicore AG & Co. KG, a company renowned for its focus on materials technology and chemistry. Her expertise in catalysis is pivotal to the ongoing research and the development of efficient synthetic methodologies within the company.

Collaborations: Throughout her career, Nadine has collaborated with notable colleagues, including Albrecht Salzer and Angelino Doppiu. Their combined efforts have facilitated advancements in the application of ruthenium-based catalysts, enhancing the capabilities available for chemical synthesis.

Conclusion: Nadine Langenscheidt exemplifies the pivotal role of women in science and innovation. Her contributions to the field of asymmetric catalysis, particularly through her patented work with ruthenium complexes, demonstrate her commitment to advancing chemical research and development. As she continues to collaborate and innovate, her future contributions promise to further enrich the scientific community.