Location History:
- Maplewood, NJ (US) (2002)
- Essex, NJ (US) (2003)
Company Filing History:
Years Active: 2002-2003
Title: The Innovations of Kelly M T Stengel
Introduction
Kelly M T Stengel is an accomplished inventor based in Essex, NJ (US). She has made significant contributions to the field of optical materials, holding two patents that showcase her innovative spirit and technical expertise. Stengel's work primarily focuses on developing high-performance materials for optical interconnects, which are crucial for advancing communication technologies.
Latest Patents
Stengel's latest patents include the invention of high-performance acrylate materials for optical interconnects. This invention provides organic optical waveguide devices that are lithographically formed and utilize polymeric materials with low optical loss. These materials exhibit good long-term and short-term stability, flexibility, and reduced stress or crack-induced scattering loss. The optical element consists of a substrate, a patterned light transmissive core composition on the surface of the substrate, and a light-reflecting cladding composition on the pattern of the core. The core composition has a glass transition temperature of about 80°C or less, while the cladding composition has a glass transition temperature of about 60°C or less.
Career Highlights
Stengel is currently employed at Corning Incorporated, a leading company in the field of materials science and optical technologies. Her role at Corning allows her to further her research and development efforts in creating advanced optical materials that can enhance communication systems.
Collaborations
Throughout her career, Stengel has collaborated with notable colleagues, including Chengzeng Xu and Chengjiu Wu. These collaborations have contributed to the advancement of her research and the successful development of her patented technologies.
Conclusion
Kelly M T Stengel is a pioneering inventor whose work in high-performance optical materials is shaping the future of communication technologies. Her contributions through patents and collaborations highlight her significant impact in the field.