Company Filing History:
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Years Active: 1981-1989
Title: Ivan K Schuller: Innovator in Superconducting Technologies
Introduction
Ivan K Schuller is a prominent inventor based in Woodridge, IL (US), known for his significant contributions to the field of superconducting materials. With a total of six patents to his name, Schuller has made remarkable advancements that have implications in various technological applications.
Latest Patents
One of Schuller's latest patents is for a superconducting structure that incorporates layers of niobium nitride and aluminum nitride. This innovative structure is created by depositing alternate layers of these materials on a substrate using various deposition methods, including dc magnetron reactive sputtering and chemical vapor deposition. The optimal thickness for niobium nitride films is approximately 70 Angstroms, while aluminum nitride films are best at around 20 Angstroms. These films are particularly useful in forming Josephson junctions and can be utilized in bulk superconductors for carrying electric current. Another notable patent involves superconducting magnet wire, which features alternating layers of niobium-containing superconductors supported by copper layers. This design enhances the critical field of the wire, making it suitable for advanced applications.
Career Highlights
Throughout his career, Ivan K Schuller has worked with esteemed organizations, including the United States of America as represented by the United States and the University of Chicago. His work has significantly impacted the field of superconductivity, leading to advancements that benefit both research and practical applications.
Collaborations
Schuller has collaborated with notable colleagues such as Charles M Falco and John B Ketterson, contributing to a rich exchange of ideas and innovations in superconducting technologies.
Conclusion
Ivan K Schuller stands out as a key figure in the development of superconducting materials, with his patents paving the way for future innovations in the field. His work continues to influence both academic research and industrial applications.