Company Filing History:
Years Active: 2022-2025
Title: **The Innovative Contributions of Thi Tan Vu**
Introduction
Thi Tan Vu is a remarkable inventor based in Oviedo, Spain, known for her groundbreaking innovations in the field of material science. With a total of nine patents to her name, she has made significant strides in the manufacture of reduced graphene oxide, demonstrating her expertise and commitment to advancing technology.
Latest Patents
Among her latest patents is a comprehensive method for the manufacture of reduced graphene oxide from expanded Kish graphite. This innovative process includes several crucial steps: A. The provision of kish graphite, B. Optional pre-treatment of the kish graphite, C. Intercalation of the kish graphite with a persulfate salt and an acid at room temperature, resulting in intercalated kish graphite, D. Expansion of the intercalated kish graphite to produce expanded kish graphite, E. An oxidation step to convert the expanded kish graphite into graphene oxide, and F. Finally, a reduction process to transform graphene oxide into reduced graphene oxide. Another significant patent details a similar method, focusing on the oxidation of pre-treated kish graphite and subsequent reduction to achieve reduced graphene oxide, emphasizing its potential applications.
Career Highlights
Thi Tan Vu currently holds a vital position at ArcelorMittal, a leading company in the steel industry. Her role has been instrumental in implementing innovative techniques related to graphene manufacturing, which can have far-reaching applications in various industrial sectors, including electronics and nanotechnology.
Collaborations
In her professional journey, Vu has collaborated with notable colleagues such as Roberto Suarez Sanchez and Abel Alvarez-Alvarez. Together, they form a dynamic team driving innovations that contribute to the advancement of material sciences and engineering.
Conclusion
Thi Tan Vu’s contributions to science and technology through her patents exemplify her ingenuity and dedication as an inventor. Her latest work on reduced graphene oxide reflects her innovative spirit and highlights the importance of collaboration in achieving breakthroughs in the field. As she continues to push the boundaries of material science, her work will undoubtedly influence future research and applications.