Harumi Sato

Title: Harumi Sato: Pioneering Innovations in Carotenoid Production and Retardation Elements

Introduction: Harumi Sato is a prominent inventor based in Tokyo, Japan, recognized for her significant contributions to the fields of biochemistry and materials science. With a total of three patents to her name, Sato has showcased her innovative spirit and dedication to advancing technology through her research and inventions.

Latest Patents: One of Sato's latest patents is a groundbreaking method for carotenoid production. This involves a mutant carotenoidogenic bacterium that includes genetic modifications to enhance the efficiency of carotenoid synthesis. Specifically, it focuses on replacing the 225th and 305th amino acid residues in key enzymes to achieve desired traits. In addition, Sato has developed a patent for a retardation element, which comprises an alignment film and a retardation layer. This technology utilizes a paint containing a liquid crystal monomer and a non-liquid crystal monomer applied to an alignment film, followed by polymerization under aligned conditions, optimizing the performance of display devices.

Career Highlights: Throughout her career, Harumi Sato has worked with notable companies such as Mayekawa Manufacturing Co., Ltd. and Dexerials Corporation. Her roles in these organizations have facilitated her growth as an inventor and have often placed her at the forefront of innovative research.

Collaborations: Sato’s work has been enriched by her collaborations with talented colleagues, including Toshiro Hattori and Katsuyuki Takahashi. Their joint efforts have contributed to the refinement and success of her inventions, fostering an environment of creativity and problem-solving.

Conclusion: Harumi Sato stands out as an influential figure in the landscape of innovation. Her patents reflect a commitment to enhancing technology in both the biochemistry and materials science realms. As she continues her work, her contributions will undoubtedly influence future advancements in these critical fields.