Company Filing History:
Years Active: 1982-1995
Title: Elek Lindner: Innovator in Biocidal Paint Technology
Introduction
Elek Lindner is a notable inventor based in San Diego, CA. He has made significant contributions to the field of biocidal paint technology, holding a total of 3 patents. His work focuses on developing innovative compounds that enhance the performance and environmental compatibility of antifouling coatings.
Latest Patents
Lindner's latest patents include the development of partially unsaturated triorganotin compounds for use in biocidal paint. These triorganotin toxicants are composed of mixed saturated and unsaturated four-carbon chains, featuring double bonds at C-1 and C-3. The incorporation of these compounds into random 50:50 copolymers of methacrylic acid and methylmethacrylate results in copolymer compositions suitable for antifouling coatings on ship hulls. Additionally, he has synthesized tributenyltin compounds that contain double bonds at C-1 or C-3, derived from symmetrical tetrabutenyltins. These compounds exhibit sufficient toxicity to function as biocides or antifoulants for ships' hulls while ensuring an increased rate of degradation to be compatible with the environment.
Career Highlights
Elek Lindner works for the United States as represented by the Secretary of the Navy. His role involves advancing research and development in materials that contribute to naval operations and environmental sustainability. His innovative approach has positioned him as a key figure in the field of biocidal technology.
Collaborations
Lindner has collaborated with notable colleagues, including Carol A Dooley and Bruce D Geelhood. Their combined expertise has furthered the development of effective and environmentally friendly biocidal solutions.
Conclusion
Elek Lindner's contributions to biocidal paint technology demonstrate his commitment to innovation and environmental responsibility. His patents reflect a significant advancement in antifouling coatings, showcasing the potential for improved performance in naval applications.