Company Filing History:
Years Active: 2014-2018
Title: The Innovative Mind of Yuying Shu
Introduction
Yuying Shu, an accomplished inventor based in Ellicott City, MD, has made significant contributions to the field of catalytic cracking technology. With a total of five patents to her name, her research focuses on improving catalytic processes, particularly in fluid catalytic cracking, which is essential for the petroleum industry.
Latest Patents
Yuying Shu's latest innovations reflect her commitment to advancing catalyst technology. Her notable patents include:
1. **High Matrix Surface Area Catalytic Cracking Catalyst Stabilized with Magnesium and Silica**: This invention features particulate catalytic cracking catalysts that include a zeolite, silica, a magnesium salt, alumina binder, and clay. The catalyst is designed to enhance catalytic activity and improve coke and hydrogen selectivity without utilizing rare earth metals.
2. **Silica Sol Bound Catalytic Cracking Catalyst Stabilized with Magnesium**: This rare earth-free catalyst comprises a zeolite, acidified silica sol binder, magnesium salt, clay, and a matrix material. It also aims to boost catalytic activity and refine hydrogen and coke selectivity without employing rare earth metals.
Career Highlights
Yuying Shu's career has been marked by her innovative approach and dedication to research. She currently works at W.R. Grace & Co., where she has been instrumental in the development of advanced catalytic materials. Her expertise not only showcases her talent as an inventor but also highlights her contributions to the industry.
Collaborations
Throughout her career, Yuying Shu has collaborated with other notable scientists in her field, including Wu-Cheng Cheng and Richard Franklin Wormsbecher. Their partnerships have further propelled the advancements in catalysis and enriched the overall research output.
Conclusion
Yuying Shu is a trailblazer in catalytic cracking technology. Her innovative patents and collaborations demonstrate her significant impact on the petroleum industry. With her continued dedication to research and development, she is poised to bring even more advancements to the field, solidifying her role as a vital contributor to modern catalysis.