Aya Koide

Title: Innovations of Aya Koide

Introduction

Aya Koide is a prominent inventor based in Hino, Japan. She has made significant contributions to the field of polymer science, particularly in the development of electrostatically bonded vesicles. With a total of 2 patents, her work showcases innovative approaches to creating stable and responsive vesicular structures.

Latest Patents

One of her latest patents is titled "Electrostatically Bonded Vesicle." The purpose of this invention is to provide a vesicle that bears disulfide bonds or thiol groups. This vesicle features a membrane formed from a combination of two polymers, where the cationic and anionic segments are partially crosslinked. The first polymer can be a block copolymer with both a non-charged hydrophilic segment and a cationic segment, or an amino acid polymer with a cationic segment. The second polymer can be a block copolymer with a non-charged hydrophilic segment and an anionic segment, or an amino acid polymer with an anionic segment.

Another notable patent is the "Electrostatically Bonded Polymer Vesicle." This invention discloses a vesicle that excels in structural stability and environmental responsiveness, produced through a simple operation. The vesicle comprises a membrane formed of a first block copolymer containing a non-chargeable hydrophilic segment and a chargeable segment, along with a second block copolymer that has an opposite electric charge.

Career Highlights

Aya Koide has worked with esteemed organizations such as the University of Tokyo and Teijin Limited. Her experience in these institutions has allowed her to advance her research and contribute to the field of polymer technology.

Collaborations

Throughout her career, she has collaborated with notable colleagues, including Kazunori Kataoka and Kensuke Osada. These partnerships have further enriched her work and expanded the impact of her inventions.

Conclusion

Aya Koide's innovative contributions to polymer science, particularly in the development of electrostatically bonded vesicles, highlight her role as a leading inventor in her field. Her patents reflect a commitment to advancing technology and improving material properties.