Lisa Ann Lamberson

Title: Innovations and Contributions of Lisa Ann Lamberson

Introduction: Lisa Ann Lamberson, an esteemed inventor based in Painted Post, NY, has made significant contributions to the field of materials science and engineering. With an impressive portfolio of 33 patents, Lamberson is recognized for her innovations in laminate materials and high-performance glass technologies.

Latest Patents: Among her latest patents, Lamberson has developed a laminate article characterized by a non-glass core and a glass envelope. This inventive laminate sheet article features a core composed of an electrical semi-conductor or an electrical conductor, complemented by a continuous glass clad layer covering at least four of the six sides of the core. The patents also detail methods for creating such laminate articles, alongside the apparatus required for their production. Additionally, she has introduced patents concerning high strain point and high Young's modulus glasses. These substantially alkali-free glasses are designed for use in substrates for flat panel display devices, such as active-matrix liquid crystal displays (AMLCDs), and are characterized by high annealing temperatures and Young's modulus. The patents further describe methods for producing these specialized glasses using a downdraw process.

Career Highlights: Throughout her career, Lisa Ann Lamberson has made impactful contributions while working with prominent companies, including Corning Incorporated. Her work at these organizations has positioned her as a leading figure in her field, particularly in the development of advanced materials that push the boundaries of technology.

Collaborations: Collaboration has been a key aspect of Lamberson's success. She has worked alongside notable coworkers, including Robert Michael Morena and Sinue Gomez. Their combined expertise has likely enhanced the innovations they brought to fruition during their time together.

Conclusion: Lisa Ann Lamberson's extensive patent portfolio and her groundbreaking work in laminate articles and specialized glasses underscore her significant influence in the field of materials science. Her dedication to innovation continues to inspire advancements that benefit various technological applications.