Location History:
- Milford, NH (US) (1987)
- Nashua, NH (US) (1986 - 1988)
Company Filing History:
Years Active: 1986-1988
Title: Lucian Borduz: Innovator in Ferrofluid Technology
Introduction
Lucian Borduz is a prominent inventor based in Nashua, NH (US), known for his significant contributions to the field of ferrofluid technology. With a total of five patents to his name, Borduz has made remarkable advancements in the development of electrically conductive ferrofluids.
Latest Patents
Among his latest patents is a method of preparing low viscosity, electrically conductive ferrofluid. This innovative composition includes a first polar liquid carrier and a second polar liquid carrier that is miscible in the first. The second carrier comprises a polyol, such as tetraethylene glycol dimethyl ether, along with magnetic particles that impart magnetic characteristics to the ferrofluid. Additionally, a surfactant, particularly a cationic surfactant, is included in an amount sufficient to stabilize and disperse the magnetic particles, which are dissociated or ionized predominantly by the second polar liquid carrier.
Another notable patent by Borduz is the low viscosity, electrically conductive ferrofluid composition and method. This patent shares similar components with the previous one, emphasizing the innovative approach to creating a stable and effective ferrofluid.
Career Highlights
Lucian Borduz is currently associated with Ferrofluidics Corporation, where he continues to push the boundaries of ferrofluid technology. His work has not only contributed to the advancement of the field but has also positioned him as a key figure in the industry.
Collaborations
Borduz has collaborated with notable colleagues, including Kuldip Raj and Hanumaiah L Gowda, to further enhance the research and development of ferrofluids. Their combined expertise has led to significant breakthroughs in the technology.
Conclusion
Lucian Borduz's innovative work in the field of ferrofluid technology has established him as a leading inventor. His contributions, particularly in developing low viscosity, electrically conductive ferrofluids, have the potential to impact various applications in science and industry.