Breakthrough in New Operating Principles for Electrocatalysts in Hydrogen Peroxide Production
- admin
- 2024-05-21
- 577
The Research team of Professor Young Jin Sa
(Department of Chemistry)
Unveils New Operating Principles
for Electrocatalysts in Hydrogen Peroxide Production
- Improved performance via redox
mediation effects of cerium oxide-based catalysts -
- Published in the prestigious
international journal of catalysis, ACS Catalysis (IF: 12.9) -
The
research team of Professor Young Jin Sa from the Department of Chemistry at
Kwangwoon University, along with master's student So-hee Kim (first author), has
developed a new catalyst essential for the production of hydrogen peroxide
using electricity and unveiled its operating principles, and published a paper
in ACS Catalysis (IF: 12.9), a prestigious international catalysis journal
published by the American Chemical Society.
Professor Young
Jin Sa explained, ‘The principle of the activity enhancement effect of ceria
presented in this research is expected to be universally applicable as it can
be similarly applied to the development of future electrocatalysts for hydrogen
peroxide production and to the development of catalysts used in other energy
conversion devices such as fuel cells and electrolysis units.’
The
research was supported by the National Research Foundation of Korea’s
Mid-Career Researcher/Connected Young Successor project (NRF-RS-2023-00208805).
(From left in the photo) Professor Young Jin Sa, Student So-hee Kim, schematic diagram of the operating principle of the ceria-oxygen nanotube catalyst.