Applied Electrochemistry Laboratory

Making, measuring and observing electrochemical interfaces

The oxidation-reduction reaction, which is applied to devices such as batteries and sensors, occurs in a nanometer-thin layer (electrochemical interface) on the surface of an electrode surface. Therefore, it is important to control the interface structure and analyze its reactions to make devices smaller and function better. Our laboratory is using electrochemistry knowledge and measurement methods to analyze and solve problems in the existing reactions and interfaces, while designing and producing new electrochemical interfaces as well.

College of Engineering Department of Applied Chemistry / Graduate School of Engineering and Science（Master's Program） Applied Chemistry Course / Graduate School of Engineering and Science（Master's Program） Global course of Engineering and Science Course / Graduate School of Engineering and Science（Doctor's Program） Regional Environment Systems Course

Faculty Name

IMABAYASHI, Shinichiro

Keyword

Energy conversion,Rare metals,Surface treatments,Clean energies,Sustainable,Chemistry,Recycling-based society

This lab is for this SDG activity:

STUDY FIELDS

Chemistry
Applied chemistry

FOR SOCIETY

We use electrochemical methods and knowledge to a) conduct basic research on electrolysis and applying new electrodes and electrolytes to energy devices and b) develop technologies to recover rare earths.

RESEARCH THEMES

Development of electrode catalysts for manufacturing new energy carriers
Development of electrochemical and sensing technologies to recover water-soluble selenium
Development of technologies to electrodeposit iridium and iridium oxide