Location History:
- Prospect Heights, IL (US) (1976)
- Arlington Heights, IL (US) (1977)
- Alexandria, VA (US) (1978 - 1979)
Company Filing History:
Years Active: 1976-1979
Title: Inventor William C. Holt, Jr. - Innovations in Conductive Materials
Introduction
William C. Holt, Jr., based in Prospect Heights, IL, is a notable inventor recognized for his contributions to the field of polymeric materials and semiconducting technologies. With a significant portfolio of six patents, his work has paved the way for advancements in electrically conductive materials, showcasing his expertise and innovative spirit.
Latest Patents
Among Holt's latest innovations are two noteworthy patents that focus on novel compositions of matter. These patents involve polymeric materials that incorporate semiconducting pyropolymeric inorganic refractory oxide materials as fillers. The resulting compositions are particularly useful in applications that require electrically conductive sheets with specific electrical resistance properties. His work in this area demonstrates a forward-thinking approach to materials science, meeting the demands of modern technological applications.
Career Highlights
Throughout his career, William C. Holt, Jr. has made significant contributions while working for reputable companies like Universal Oil Products Company and UOP LLC. His experiences at these organizations have allowed him to refine his skills in materials innovation, positioning him as an influential figure within his field.
Collaborations
Holt's journey in innovation has been marked by meaningful collaborations with fellow professionals. He has had the opportunity to work alongside esteemed colleagues such as Karl J. Youtsey and Robert D. Carnahan. These partnerships have not only enriched his work but have also fostered a dynamic exchange of ideas, further enhancing the quality of his inventions.
Conclusion
William C. Holt, Jr. continues to be a significant contributor to the world of patents and innovations. His focus on enhancing polymeric materials with advanced semiconducting properties highlights the intersection of creativity and technology in today’s material science landscape. As he forges ahead, his work undoubtedly inspires future innovations in various sectors that rely on advanced conductive materials.