Company Filing History:
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1 out of 832,891 Years Active: 2009
Title: Michael D. Carolus: Innovator in Titanium Coatings
Introduction
Michael D. Carolus is a notable inventor based in Princeton, NJ (US). He has made significant contributions to the field of materials science, particularly in the development of advanced coatings for titanium materials. With a total of 2 patents, his work focuses on enhancing the performance and functionality of titanium surfaces.
Latest Patents
One of his latest patents is titled "Enhanced bonding layers on titanium materials." This invention provides a dense-coverage, adherent phosphorous-based coating on the native oxide surface of titanium. The disclosed phosphorous-based coatings include phosphate and organo-phosphonate coatings. This innovation also allows for further derivatization of the phosphorous-based coatings, yielding dense surface coverage that promotes osteoblast adhesion and proliferation on titanium surfaces. Another significant patent is "Enhanced bonding layers on native oxide surfaces." This patent describes an implantable device featuring a metal, metal alloy, metalloid, polymeric, or ceramic surface with a phosphonic acid coating layer. The coating directly contacts the surface, which has hydroxyl groups covalently bonded to the acid groups of the coating layer, enhancing the device's functionality.
Career Highlights
Michael D. Carolus has worked at Princeton University, where he has contributed to various research initiatives. His expertise in materials science has positioned him as a key figure in the development of innovative solutions for medical and industrial applications.
Collaborations
Throughout his career, Michael has collaborated with notable colleagues, including Jeffrey J. Schwartz and Michael P. Danahy. These partnerships have furthered his research and development efforts in the field of titanium coatings.
Conclusion
Michael D. Carolus is a distinguished inventor whose work in titanium coatings has the potential to impact various industries, particularly in medical applications. His innovative patents reflect his commitment to advancing materials science and improving the functionality of implantable devices.