Designed a "core-shell structure catalyst" using cost-effective ruthenium to improve its potential for commercialization.

Among these, ruthenium—a platinum group metal—has emerged as an important and commonly used catalyst. However, while a powerful and cost-effective material, highly reactive ruthenium catalysts ...

Seoul National University’s College of Engineering has announced a major breakthrough in eco-friendly hydrogen production. A research team led by Professor Jin Young Kim from the Department of ...

This innovation is expected to lead the next generation of sustainable hydrogen production. The newly developed catalyst features a ruthenium (Ru)-based nanocluster with a core-shell structure.

The next generation of sustainable hydrogen production could be made possible with an advanced electrochemical catalyst.

Among these, ruthenium – a platinum group metal – has emerged as an important and commonly used catalyst. However, while a powerful and cost-effective material, highly reactive ruthenium catalysts ...

Transition metals are metallic elements, such as nickel, cobalt, and ruthenium, that exchange electrons with lithium ions inside the battery. Kim Min-ho, the first author and postdoctoral ...

The fission product nuclides generated during the irradiation of reactor fuel include several useful materials, among them precious metals of the platinum group (ruthenium, rhodium and palladium) ...

Following a rigorous screening process, Ichiro Tanaka Awards, for 3 million yen each, were presented to Assistant Professor ...

TANAKA Memorial Foundation Announces Recipients of FY2024 Precious Metals Research Grants Ichiro Tanaka Awards Presented to ...