Company Filing History:
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Years Active: 2010-2025
Title: The Innovative Contributions of Matthew J. Graham in Photonic Technologies
Introduction: Matthew J. Graham, an inventive mind based in Akron, Ohio, is recognized for his significant contributions to the field of photonics. With a total of three patents under his name, Graham has focused his efforts on the development of conjugated polymers and their applications in photonic crystals.
Latest Patents: His latest patents include groundbreaking work on photonic crystals and the synthesis of conjugated polymers. In his inventions, Graham details methods that involve the use of at least one Lewis acid and one proton trap to synthesize organic conjugated polymers with elevated refractive indices. Specifically, he has developed processes that allow for the creation of organic polymers that exhibit refractive indices of approximately 2.3 for electromagnetic energy around 700 nm wavelengths. This innovative approach enhances the functionality and efficiency of photonic materials, paving the way for advancements in optical technologies.
Career Highlights: Matthew J. Graham has held pivotal roles at leading institutions such as the University of Akron and Amyris Biotechnologies, Inc. His academic and industrial experiences have allowed him to refine his skills and contribute substantially to the field of polymer and photonic research.
Collaborations: Throughout his career, Graham has worked alongside notable professionals, including his coworker Frank Wayne Harris. Their collaborative efforts have helped drive innovations in the area of conjugated polymers, further enhancing the capabilities and applications of photonic technologies.
Conclusion: Matthew J. Graham stands out as a significant contributor to the evolution of photonics through his inventions and research on conjugated polymers. His patents not only reflect his innovative spirit but also provide a foundation for future advancements in the field. As technology continues to evolve, Graham's work is poised to make lasting impacts on photonic applications and beyond.