Company Filing History:
Years Active: 1995
Title: The Innovations of Catherine E Rice
Introduction
Catherine E Rice is a notable inventor based in Scotch Plains, NJ (US). She has made significant contributions to the field of superconductivity through her innovative methods and research. Her work has implications for various technological advancements, particularly in electronics and materials science.
Latest Patents
Catherine E Rice holds 1 patent for her invention titled "Method of producing a layer of superconductive oxide." This patent discloses a method for forming a superconductive oxide layer on a substrate. The process involves applying a precursor solution to a major surface of the substrate, resulting in the formation of a metal-containing layer. The substrate/layer combination is then heat-treated to transform a substantial portion of the layer material into superconductive oxide. The precursor solution is created by dissolving Ba, Y, and Cu-containing compounds in acetic acid and water. The solution is spun on a MgO substrate, and unwanted constituents are driven off at 400°C. The combination is then heated to approximately 830°C in O2 to form the perovskite phase associated with superconductivity in YBa2Cu3O7, followed by oxygenation of the layer at about 400°C in O2.
Career Highlights
Catherine E Rice is currently employed at At+t Corp, where she continues to explore advancements in superconductive materials. Her work has positioned her as a key figure in her field, contributing to the development of technologies that leverage superconductivity for improved performance and efficiency.
Collaborations
Catherine collaborates with Michal Edith Gross, who is also a prominent figure in the field. Their partnership enhances the research and development efforts at At+t Corp, fostering innovation and progress in superconductive technologies.
Conclusion
Catherine E Rice's contributions to the field of superconductivity through her innovative patent and collaborative efforts highlight her importance as an inventor. Her work continues to pave the way for advancements in technology and materials science.