Ryousuke Matsuno

Title: Ryousuke Matsuno: Innovator in Reactive Ionic Liquids

Introduction

Ryousuke Matsuno is a notable inventor based in Saga-ken, Japan. He has made significant contributions to the field of ionic liquids, particularly in the development of materials used in transducers. His innovative work has led to the creation of a unique reactive ionic liquid that enhances the functionality of electronic devices.

Latest Patents

Matsuno holds a patent for a "Reactive ionic liquid, and ion-immobilized metal oxide particle, ion-immobilized elastomer, and transducer using same." This invention involves a reactive ionic liquid that serves as an ionic component in a transducer. The ionic liquid is designed to be contained in an ion-containing layer, which is in contact with a high-resistance layer acting as a dielectric layer. The invention ensures that the ionic liquid does not migrate from the ion-containing layer to the high-resistance layer when a voltage is applied. The reactive ionic liquid consists of an ion pair made up of an anion and a cation, where the cation includes an imidazolium or quaternary ammonium cation with a reactive group, and the anion is selected from sulfonate, sulfonylimide, or nitrobenzoate.

Career Highlights

Throughout his career, Matsuno has worked with prominent organizations, including Sumitomo Riko Company Limited and Kyushu University. His experience in these institutions has allowed him to refine his expertise in materials science and engineering, particularly in the area of ionic liquids.

Collaborations

Matsuno has collaborated with notable colleagues such as Shigeaki Takamatsu and Yota Kokubo. These partnerships have contributed to the advancement of research in ionic materials and their applications in various technologies.

Conclusion

Ryousuke Matsuno's innovative work in reactive ionic liquids has positioned him as a key figure in the field of materials science. His contributions continue to influence the development of advanced electronic devices and transducer technologies.