Location History:
- Randolph, NJ (US) (1981 - 1984)
- Somerset, NJ (US) (1984)
- Stanhope, NJ (US) (1983 - 1987)
Company Filing History:
Years Active: 1981-1987
Title: The Innovative Contributions of Dawn M Ivory
Introduction
Dawn M Ivory, a remarkable inventor based in Stanhope, NJ, has made significant strides in the field of polymer engineering. With an impressive portfolio of 7 patents, her work focuses on novel methods for grafting polymers, showcasing her expertise and innovative spirit.
Latest Patents
Among her latest patents, Ivory has developed a comprehensive method for grafting polymers to polytetrafluoroethylene (PTFE). This technique involves reducing PTFE at the surface of a substrate to polyacetylene (PA) and subsequently doping it with a suitable dopant. The next step entails contacting the doped PA/PTFE substrate with a polymerizable monomer precursor, which then chemically bonds to the surface, resulting in a grafted composite with varying layer thickness.
Another significant achievement is her patent for electrically conducting compositions of doped poly(paraphenylene). This invention describes compositions that demonstrate direct current conductivities of at least 10^3 ohm^-1 cm^-1 at room temperature, greatly enhancing their utility in electronic devices, electroplating substrates, and materials designed for solar and radio frequency radiation absorption.
Career Highlights
Dawn M Ivory has built her career at Allied Corporation, where she has been instrumental in developing innovative solutions that bridge the gap between materials science and practical applications. Her patents not only highlight her technical capabilities but also her dedication to advancing her field.
Collaborations
Throughout her career, Ivory has collaborated with notable peers, including Granville G Miller and Ronald Richard Chance. These partnerships have undoubtedly enriched her research and contributed to the successful development of her patented technologies.
Conclusion
Dawn M Ivory's contributions to the field of polymer technology are substantial and innovative, with her latest patents paving the way for advancements in electrical conductivity and material applications. Her dedication to research and collaboration exemplifies the qualities of a leading inventor in today’s scientific community.