Company Filing History:
Years Active: 2014
Title: Innovations of Robert Iezzi in Self-Healing Polymer Coatings
Introduction
Robert Iezzi is an innovative inventor based in Stone Harbor, NJ (US). He has made significant contributions to the field of materials science, particularly in the development of self-healing polymer nanocomposite coatings. His work focuses on enhancing the durability and longevity of surfaces made of wood through advanced polymer technology.
Latest Patents
Robert Iezzi holds a patent for "Self-healing polymer nanocomposite coatings for use on surfaces made of wood." This invention features phase-separated self-healing polymeric wood coatings that utilize a 'biphasic' thermoset/thermoplastic morphology. The biphasic structure consists of a major 'load-bearing' thermoset phase that provides superior strength and performs essential mechanical and structural functions. Additionally, it includes a “self-healing” phase of a thermoplastic healing agent that repairs the material and restores its mechanical and structural integrity after damage. The phase-separated morphology is achieved through a reaction process that facilitates phase separation. Methodologies for creating this biphasic structure in solvent-borne thermally cured resin, waterborne resin, and solvent-borne UV-curable resin are also described in his patent.
Career Highlights
Robert Iezzi is associated with Nei Corporation, where he continues to innovate and develop advanced materials. His work has garnered attention for its potential applications in various industries, particularly in enhancing the performance of wood surfaces.
Collaborations
Robert has collaborated with notable colleagues, including Runqing Ou and Kenneth Eberts, to further advance his research and development efforts.
Conclusion
Robert Iezzi's contributions to the field of self-healing polymer coatings represent a significant advancement in materials science. His innovative approach to enhancing wood surfaces through advanced polymer technology showcases the potential for improved durability and longevity in various applications.