Location History:
- San Jose, CA (US) (1977 - 1981)
- Hollister, CA (US) (1983 - 1989)
Company Filing History:
Years Active: 1977-1989
Title: Meredith David Shattuck: Innovator in Organic Photoconductors
Introduction
Meredith David Shattuck is a prominent inventor based in San Jose, CA (US). She has made significant contributions to the field of organic photoconductors, holding a total of 10 patents. Her work focuses on improving the performance and durability of organic materials used in electronic applications.
Latest Patents
Among her latest patents are innovations that enhance the functionality of organic photoconductors. One notable patent is for organic photoconductors with improved wear. This invention features an organic photoconductor comprising a charge generation layer and a charge transport layer, which has a higher concentration of charge transport molecules nearer the charge generation layer than in the topmost portion. Another significant patent addresses organic photoconductors with reduced fatigue. In this invention, fatigue in organic photoconductors is minimized by including a small amount of a nonvolatile basic amine in the charge transport layer, which is soluble in a common solvent with both the charge transport material and the binder of the charge transport layer.
Career Highlights
Meredith is currently employed at International Business Machines Corporation, commonly known as IBM. Her role at IBM allows her to further her research and development in the field of organic electronics, contributing to advancements that have practical applications in various technologies.
Collaborations
Throughout her career, Meredith has collaborated with notable colleagues, including Glenn T Sincerbox and Robert B Champ. These collaborations have fostered an environment of innovation and creativity, leading to groundbreaking developments in her field.
Conclusion
Meredith David Shattuck is a trailblazer in the realm of organic photoconductors, with a strong portfolio of patents that reflect her innovative spirit. Her contributions continue to shape the future of electronic materials and their applications.