This book introduces the recent development in Japan of diamond electrodes, which has attracted much attention in the world. For example, electrochemical sensors using diamond electrodes are now being utilized commercially. Newly developing applications such as electrochemical organic synthesis including CO 2 reduction are also expected to form an important future technology. Those emerging applications to various fields which are receiving increasing attention are described in detail here. This book is useful not only for students who would like to begin their study of diamond electrodes but…mehr
This book introduces the recent development in Japan of diamond electrodes, which has attracted much attention in the world. For example, electrochemical sensors using diamond electrodes are now being utilized commercially. Newly developing applications such as electrochemical organic synthesis including CO2 reduction are also expected to form an important future technology. Those emerging applications to various fields which are receiving increasing attention are described in detail here. This book is useful not only for students who would like to begin their study of diamond electrodes but also for industries that are exploring novel electrochemical applications.
Yasuaki Einaga is a professor in the Department of Chemistry at Keio University, Japan. He received his BS (1994), MS (1996), and PhD (1999) from the University of Tokyo. After 2 years as a research associate at the University of Tokyo, he started a faculty career as an assistant professor in Keio University in 2001, where he was promoted to professor in 2011. He was previously research director of JST-CREST (2011-2014), and is currently a research director of JST-ACCEL (2014-2020). He was awarded "the Chemical Society of Japan Award for Creative Work" in 2016 for his pioneering work in diamond electrodes. His research interests include functional materials science, photochemistry, and electrochemistry.
Inhaltsangabe
Part I: Fundamentals.- 1. Surface control.- 2. Surface chemistry.- 3. Nanoscale imaging.- 4. Theoretical calculation on boron-doped diamond surface.- Part II: Applications.- 5. Application for capacitor.- 6. Boron-doped diamond powder.- 7. Photo-electrochemical CO2 reduction.- 8. CO2 reduction.- 9. Electrochemical organic synthesis.- 10. Electrochemical sensor 1: chlorine.- 11. Electrochemical sensor 2: modified boron-doped diamond.- 12. In vivo real time measurement of drugs.- 13. Influenza virus.