Company Filing History:
Years Active: 1986-2001
Title: The Innovative Contributions of Joel Askinazi
Introduction
Joel Askinazi is a notable inventor based in Trumbull, Connecticut. He has made significant contributions to the field of materials science, particularly in the development of advanced diamond technologies. With a total of 5 patents to his name, Askinazi's work has implications in various industries, including aerospace and optics.
Latest Patents
Askinazi's latest patents showcase his innovative approach to enhancing the properties of diamond materials. One of his notable inventions is a method for producing low reflectance diamond products. This method involves creating novel diamond bodies with near-surface areas that have a reduced index of refraction, which serves as an anti-reflection layer. By displacing certain ions in the diamond lattice structure through ion implantation, Askinazi aims to achieve desired optical properties suitable for lens coatings. Additionally, he has developed a method for fabricating composite infrared windows that exhibit high transmittance at infrared frequencies. This process includes bonding a protective layer to an infrared substrate without adhesive, allowing for easy removal and replacement.
Career Highlights
Throughout his career, Joel Askinazi has worked with prominent companies such as Raytheon Company and Sealed Air Corporation. His experience in these organizations has contributed to his expertise in materials science and engineering. Askinazi's innovative spirit and dedication to research have positioned him as a key figure in his field.
Collaborations
Askinazi has collaborated with notable individuals in the industry, including Tom Feng and Alfred W. Fielding. These partnerships have likely enriched his work and expanded the impact of his inventions.
Conclusion
Joel Askinazi's contributions to the field of diamond technology and materials science are commendable. His innovative patents and career achievements reflect his commitment to advancing technology and improving optical materials.