Company Filing History:
Years Active: 2011
Title: Innovations in Composite Materials by Linlin Gui
Introduction
Linlin Gui is a prominent inventor based in Beijing, China, recognized for her groundbreaking work in the field of composite materials. With one patent to her name, she has made significant contributions to the development of advanced materials that showcase potential for industrial application.
Latest Patents
Linlin Gui's patent, titled "Composite material composed of nanoparticles of transition metal and magnetic ferric oxide, a method of preparing the same, and uses of the same," describes a composite material that combines nanoparticles of transition metals or alloys with magnetic ferric oxide. The size of the transition metal nanoparticles ranges from 0.7 to 5 nm, while the magnetic ferric oxide nanoparticles range from 5 to 50 nm. This unique composition, where the transition metals comprise 0.1 to 30 wt% of the total weight, allows for high reactivity and extreme selectivity in industrial reactions. Notably, it addresses the challenges of hydrogenolysis-dehalogenation faced during the preparation of halogenoarylamines from halogeno-nitro-aromatics, offering an important advancement for industrial applications.
Career Highlights
As an inventor and researcher, Linlin Gui has established herself at Peking University, where she continues to engage in innovative research and development. Her expertise in composite materials has positioned her as a leading figure in her field, contributing valuable insights and advancements.
Collaborations
Linlin has collaborated with distinguished colleagues, including Yuan Wang and Junling Zhang, to further her research endeavors. These collaborations have contributed to her success and the impact of her work in the material sciences community.
Conclusion
Linlin Gui’s contributions, particularly her patented innovations in composite materials, have significant implications for industrial applications. Her work not only addresses existing challenges in chemical processes but also sets the stage for further advancements in materials science. As her career progresses, the impact of her research is likely to resonate within both academic and industrial spheres.