Company Filing History:
Years Active: 1992
Title: Badri N. Das - Innovator in Superconducting Materials
Introduction
Badri N. Das is a prominent inventor based in Upper Marlboro, MD, known for his significant contributions to the field of superconducting materials. With a keen focus on the growth process of single crystals, his work stands out in the realm of high-temperature superconductors.
Latest Patents
Badri N. Das holds a patent for the "Process for single crystal growth of high T.sub.c superconductors." This innovative method enables the growth of large oriented crystals greater than one millimeter in length of high T.sub.c superconducting compounds. The patented process involves several steps, starting with the precise mixing of starting materials to create the superconducting compound. The method further includes removing CO.sub.2 from the mixture, forming a ternary oxide, and shaping it into a self-supporting green body that is then sintered at specific temperatures. This thermal processing results in a sintered body that, upon cooling, facilitates the formation of crystals that can be processed to enhance their superconducting properties.
Career Highlights
Badri's career has been marked by his affiliation with the United States of America, as represented by the Secretary of the Navy, where he conducts cutting-edge research in materials science. His contributions have pushed the boundaries of superconductivity and have implications for various technological advancements.
Collaborations
Throughout his career, Badri N. Das has collaborated with esteemed professionals in the field, including William L. Lechter and Louis E. Toth. Together, they have worked on innovative solutions that leverage their collective expertise in superconducting materials.
Conclusion
Badri N. Das is a noteworthy figure in the world of innovation, particularly in the area of high-temperature superconductors. His patented process for single crystal growth not only highlights his ingenuity but also underscores the importance of his contributions to the scientific community. As he continues to work with esteemed colleagues, the potential for further advancements in superconductivity remains promising.