Company Filing History:
Years Active: 2021-2025
Title: Innovator Spotlight: Jeffrey C. Depriest
Introduction
Jeffrey C. Depriest is an accomplished inventor based in Alexandria, VA, who has made significant contributions to the field of electrically conducting polymers. With a total of four patents to his name, his work primarily focuses on the development of innovative materials for applications in photovoltaic technology.
Latest Patents
Among his latest patents, Jeffrey's work on "Electrically Conducting Poly(Pyrazoles)" stands out. This disclosure concerns the oligomerization and polymerization of substituted aminopyrazole derivatives, highlighting a monomer activation procedure that involves base-mediated conversion of the protonated pyrazole ring nitrogen to amine salt. It outlines the specific chemistries necessary for synthesizing a pyrazole monomer used in polymer synthesis. Additionally, it details his efforts in blending novel polypyrazoles with other compounds for solar cell construction and testing purposes. This innovative approach introduces the use of heteroatom-rich, electron-deficient oligomers and polymers as n-dopable or p-dopable electron acceptors within photovoltaic cells.
Career Highlights
Jeffrey C. Depriest has established his career within the United States of America, As Represented by the Secretary of the Navy. His extensive research and patent work contribute to advancing the understanding and application of conductive polymers in energy technologies, showcasing his dedication to innovation and scientific growth.
Collaborations
Throughout his career, Jeffrey has worked alongside talented colleagues such as Brett D. Martin and Ian D. Giles. These collaborations not only enhance the scope of research but also foster the exchange of ideas that lead to groundbreaking advancements in their field.
Conclusion
In summary, Jeffrey C. Depriest exemplifies the spirit of innovation through his significant contributions to the development of electrically conducting materials. His patents and collaborative efforts demonstrate the potential of polymers in renewable energy technologies, paving the way for future advancements in solar energy applications.