Company Filing History:
Years Active: 2001
Title: Marie Isabel Aguilar: Innovator in Porous Zirconia Particles
Introduction
Marie Isabel Aguilar is a distinguished inventor based in Warrandyte, Australia. She has made significant contributions to the field of materials science, particularly in the development of porous zirconia particles. Her innovative work has led to advancements in various applications, showcasing her expertise and dedication to research.
Latest Patents
Marie Isabel Aguilar holds a patent for her invention related to zirconia particles. The patent describes methods for creating porous zirconia or zirconium-containing particles, which include modifications to the surface of the particles. The process involves heating zirconia particles to achieve a homogeneously liquid melt, followed by quenching the melt to induce spinodal decomposition. This results in quench particles with both silica-rich and zirconia-rich phases. The subsequent annealing of these quenched particles produces non-porous solid particles, which are then treated to leach out silica, ultimately yielding porous solid zirconia particles with a three-dimensionally interconnected network of pores. This innovative method has potential applications in various industries.
Career Highlights
Marie Isabel Aguilar is affiliated with the Beijing University of Technology, where she continues to advance her research in materials science. Her work has garnered attention for its practical applications and innovative approaches to material development. With a focus on enhancing the properties of zirconia particles, she has established herself as a leading figure in her field.
Collaborations
Throughout her career, Marie has collaborated with notable colleagues, including Mary Susan Jean Gani and Hans-Jurgen Wirth. These collaborations have further enriched her research and contributed to the advancement of knowledge in materials science.
Conclusion
Marie Isabel Aguilar's contributions to the field of porous zirconia particles exemplify her innovative spirit and commitment to scientific advancement. Her work not only enhances our understanding of materials but also paves the way for future applications in various industries.