Company Filing History:
Years Active: 2015
Title: Innovations of Søren Birk Rasmussen in Nanoparticular Metal Oxide Catalysts
Introduction
Søren Birk Rasmussen is a notable inventor based in Madrid, Spain. He has made significant contributions to the field of catalysis, particularly through his innovative work on nanoparticular metal oxide catalysts. His research focuses on enhancing the efficiency and effectiveness of chemical reactions, which has important implications for various industrial applications.
Latest Patents
Rasmussen holds a patent for "Nanoparticular metal oxide/anatase catalysts." This invention pertains to a method for preparing nanoparticular metal oxide catalysts that exhibit a narrow particle size distribution. The process involves the use of combustible crystallization seeds, which are co-precipitated with the catalyst metal oxide and carrier metal oxide. These seeds are subsequently removed through combustion during a final calcining step. The patent also outlines processes for utilizing these catalysts in selective catalytic reduction (SCR) reactions of nitrogen oxides, oxidations of alcohols or aldehydes, and photocatalytic oxidation of volatile organic compounds (VOCs).
Career Highlights
Søren Birk Rasmussen is affiliated with Danmarks Tekniske Universitet, where he continues to advance research in catalysis. His work has garnered attention for its innovative approach to catalyst preparation and application. With a focus on practical applications, his inventions aim to address environmental challenges and improve industrial processes.
Collaborations
Rasmussen collaborates with esteemed colleagues such as Rasmus Fehrmann and Anders Riisager. These partnerships enhance the research output and foster a collaborative environment that drives innovation in the field of catalysis.
Conclusion
Søren Birk Rasmussen's contributions to nanoparticular metal oxide catalysts represent a significant advancement in the field of chemical engineering. His innovative methods and collaborative efforts continue to influence the development of efficient catalytic processes.