Fuel cells and metal-air batteries are considered the future of clean energy technology, but they rely on one critical reaction—the oxygen reduction reaction (ORR)—to convert energy efficiently.

Fuel cell vehicles, the only all-electric technology with a demonstrated >300 miles per fill travel range, use Pt as the electrode catalyst. The high price of Pt creates a major cost barrier for large ...

The study focuses on the oxygen reduction reaction, a key process in fuel cells that limits their efficiency. New insights ...

Single-atom catalysts (SACs) are recently emerging as a new frontier in catalysis science. With maximum atom-utilization efficiency and unique properties, SACs exhibit great potential for enabling ...

Just when you thought you’d got a handle on the chemistry behind hydrogen fuel cells, researchers at the Fritz Haber ...

A letter titled “A cobalt (II) porphyrin with a tethered imidazole for efficient oxygen reduction and evolution electrocatalysis” was recently published by Rui Cao, Weiqiang Zhang, Shunichi Fukuzumi, ...

Figure 1: Comparison of the electrochemistry, XRD patterns and morphology of NaO 2 formed by discharge in pure and water-added NaOTf salt electrolyte. Figure 3: Schematic illustration of the mechanism ...