Researchers in South Korea have developed a new catalyst design strategy that boosts the ...

Korean researchers have developed a new catalyst design technology that can improve the performance of batteries and hydrogen ...

Researchers in South Korea have developed a new way to improve the performance of batteries and hydrogen fuel cells without ...

Hydrogen fuel cells face way more issues than just the skepticism of battery electric vehicle (BEV) advocates. This gas is difficult to store. When it comes from renewable sources, it is expensive.

The pursuit of clean and efficient energy conversion technologies has led to significant advancements in fuel cell research. A study conducted at Fuzhou University and published in Frontiers in Energy ...

As ammonia gains attention as a next-generation energy source capable of overcoming the limits of hydrogen storage and transport, KAIST and a joint research team have developed fuel cell technology ...

A simplified schematic depicting the formation mechanism of NiPt nanocatalysts with a dome-shaped hollow polycrystalline structure incorporating a Ni3Pt5 intermetallic phase. The process is driven by ...

(Left) Schematic illustration of the formation of a Pt–Co–Mn ternary intermetallic structure, where oxygen vacancies generated at the MnO interface drive atomic ordering within the catalyst. (Top ...

When we chat about green hydrogen production, everyone's eyes usually dart to the renewable electricity that powers ...