Location History:
- Waldorf, MD (US) (2013)
- Evanston, IL (US) (2021)
- Chicago, IL (US) (2010 - 2023)
Company Filing History:
25 out of 5,543 
6 out of 832,891 Years Active: 2010-2023
Title: Lisa M Knight: Innovator in Hydroprocessing Catalysts and Molecular Sieves
Introduction
Lisa M Knight is an accomplished inventor based in Chicago, IL, with a remarkable portfolio of 31 patents. Her work focuses on advancing hydroprocessing catalysts and developing novel molecular sieves, which have significant implications for the field of chemical engineering and material science.
Latest Patents
Knight's latest innovations include two notable patents. The first, titled "High Activity and High Distillate Yield Hydrocracking Catalysts with Intimate Interaction Between Unsupported Metal Oxide and Zeolite," describes a pioneering hydroprocessing catalyst. This catalyst enhances performance through intimately mixing unsupported metal oxides with zeolites, allowing for improved acid function interaction. The second patent, "High Charge Density Metallophosphate Molecular Sieves," presents a new family of crystalline microporous materials. These metallophosphate sieves, represented by the empirical formula RAMEPO, incorporate alkali metal cations and quaternary organoammonium cations. They possess unique catalytic and separation properties beneficial for hydrocarbon conversion processes.
Career Highlights
Throughout her career, Lisa has contributed to her field while working with leading organizations such as UOP LLC. Her innovative work in hydroprocessing and molecular sieves continues to shape industrial applications and technological advancements in chemistry.
Collaborations
Lisa M Knight has collaborated with notable coworkers, including Gregory John Lewis and Paulina Jakubczak, further emphasizing the importance of teamwork in driving innovation. These collaborations demonstrate the collective effort required to bring groundbreaking inventions to fruition.
Conclusion
Lisa M Knight's contributions to the field of chemical engineering through her patents offer significant advancements in catalyst performance and molecular sieve technology. Her ongoing dedication to innovation highlights her status as a leading inventor in her field, and her work is poised to have a lasting impact on various chemical processes.