Valery Kuzmin

Title: Valery Kuzmin: Innovator in Optical Device Technologies

Introduction: Valery Kuzmin is a notable inventor located in South San Francisco, California, recognized for his contributions to the field of optical devices. With a unique patent that focuses on the deposition of polymer solutions, Kuzmin's work plays a significant role in advancing optical technology.

Latest Patents: Kuzmin holds a patent titled "Depositing polymer solutions to form optical devices." This patent outlines methods for depositing polymer solutions on various substrates to create optical elements. The polymer solutions consist of rigid rod-like molecules designed to ensure optimal solubility, viscosity, and cross-linking ability. The deposition techniques he has developed include innovative methods such as slot die, spray, molding, and roll coating. Furthermore, Kuzmin's patent describes pre-deposition techniques for improving substrate wettability and adhesion, as well as post-deposition methods, such as ultraviolet cross-linking and drying techniques. The resulting optical elements exhibit high refractive index values, making them suitable for applications in LCD active panels and light collimators.

Career Highlights: Valery Kuzmin has established himself in the technical landscape through his work at Light Polymers Holding. His dedication to advancing polymer technology in optical elements has set a high standard in the field. His innovative methods contribute significantly to the efficiency and effectiveness of optical device manufacturing.

Collaborations: During his career, Kuzmin has collaborated with talented professionals like Irina Kasyanova and Mary Parent. These partnerships have allowed for the exchange of ideas and expertise, further enhancing the innovation process at Light Polymers Holding.

Conclusion: Valery Kuzmin's innovative approaches to polymer solutions for optical devices highlight the potential of using advanced materials to improve technology. His work continues to inspire advancements in the field, making a significant impact on the development of modern optical applications.