Lorraine Ferrar

Title: Lorraine Ferrar: Innovator in Optical Recording Media

Introduction

Lorraine Ferrar is a distinguished inventor based in Fairport, NY (US). She has made significant contributions to the field of optical recording media, holding a total of 2 patents. Her innovative work has advanced the technology used in optical devices, showcasing her expertise and creativity.

Latest Patents

Ferrar's latest patents include groundbreaking inventions that enhance optical recording materials. One of her notable patents is for an optical recording material that comprises a polymeric matrix and a dewarbenzene derivative reactant. This invention allows for isomerization to a benzene product upon triplet excitation, resulting in a change in optical properties. Additionally, she has developed an optical device that features regional variations in concentrations of reactants and products produced by triplet chain isomerization, thereby providing a pattern of intelligence.

Another significant patent is for an optically recorded article that includes a pattern of isomerized material in two isomeric forms within a matrix. This matrix is polymerized in-situ, and one of the isomeric forms can be converted to the other form by one-electron oxidation. These innovations reflect Ferrar's commitment to advancing optical technology.

Career Highlights

Lorraine Ferrar is currently employed at Eastman Kodak Company, where she continues to push the boundaries of optical recording technology. Her work has not only contributed to the company's success but has also positioned her as a leader in her field.

Collaborations

Throughout her career, Ferrar has collaborated with talented individuals such as Samir Y Farid and Douglas Robert Robello. These partnerships have fostered innovation and have been instrumental in the development of her patented technologies.

Conclusion

Lorraine Ferrar's contributions to optical recording media exemplify her innovative spirit and dedication to her field. Her patents reflect a deep understanding of the complexities of optical technology, and her work continues to influence advancements in this area.