Company Filing History:
Years Active: 1991-1999
Title: The Innovative Contributions of Daniel M McNeil
Introduction
Daniel M McNeil, an accomplished inventor based in Georgetown, CA, is recognized for his significant contributions to the field of materials science and polymer chemistry. With a total of six patents to his name, McNeil has demonstrated a commitment to advancing technology through his innovative inventions.
Latest Patents
Among his latest patents is a process for the preparation of hydroxygallium phthalocyanine. This innovative process involves mixing a slurry of HOGaPc Type I polymorph under low shear and high flow in an organic solvent, resulting in a HOGaPc Type V polymorph that boasts superior electrophotographic imaging properties. Another notable patent focuses on the preparation of conductive polymers. This detailed process includes several steps, such as mixing monomers with conductive components and solvents, effecting solution polymerization by heating, and subsequently polymerizing the resulting suspension, leading to a polymeric product that incorporates conductive elements.
Career Highlights
Daniel M McNeil is employed at Xerox Corporation, a company renowned for its innovations in imaging and printing technologies. His work at Xerox has allowed him to explore advanced polymer materials that have applications in various industries, especially in the fields of imaging and electronics.
Collaborations
Throughout his career, McNeil has collaborated with esteemed colleagues in the industry, including George Liebermann and Michael F Cunningham. These collaborations have enabled him to leverage collective expertise, further enhancing the impact of his inventions.
Conclusion
Daniel M McNeil's work exemplifies the spirit of innovation that drives advancements in technology. His patents reflect a deep understanding of materials science and a dedication to finding new solutions that meet modern technological challenges. As he continues to contribute to the field, his inventions will undoubtedly pave the way for future advancements in conductive materials and imaging technologies.