Company Filing History:
Years Active: 1996
Title: **Sikha Ray: Pioneering Innovations in Solid Electrolyte Ceramics**
Introduction
Sikha Ray, an accomplished inventor based in Ulm, Germany, has made significant contributions to the field of materials science. With a patent to her name, she stands out as a driving force in innovative technology development.
Latest Patents
Sikha's prominent patent focuses on a solid electrolyte ceramic, specifically a method of making a β-alumina compound. This compound, represented by the general formula M.sub.y O·xAl.sub.2 O.sub.3, involves a sophisticated process of forming a green precursor composed of particulate aluminum and a reagent that contains an oxide of the metal M or its precursor. The method requires heating the mixture to temperatures between 800°C and 1150°C in an oxidizing environment to ensure oxidation of the aluminum. Subsequent heating to temperatures ranging from 1150°C to 1350°C facilitates the reaction between the oxidized aluminum and the metal M oxide, resulting in the formation of the β-alumina compound. This invention represents a significant advancement in the capabilities of solid-state batteries and other electronic applications.
Career Highlights
Currently, Sikha Ray is affiliated with Programme 3 Patent Holdings, where she continues her research and development efforts in innovative materials. Her work not only highlights her technical expertise but also emphasizes her commitment to advancing technology in her field.
Collaborations
Sikha collaborates closely with her coworker, Arnold van Zyl, contributing to a dynamic and innovative research environment. Together, they work on various projects, furthering the development of new materials and technologies essential for a broad range of applications.
Conclusion
In summary, Sikha Ray exemplifies the spirit of innovation within the materials science community. With her patent on solid electrolyte ceramics and her ongoing collaborations, she plays a critical role in advancing technology that could transform industries. Her commitment to research and development continues to inspire future innovations in her field.