Researchers used a chemical vapor to stabilize iron catalysts during thermal activation. (Representational image)Washington University in St. Louis Researchers at Washington University in St. Louis ...

The model generates one frame, then uses it as the starting point for the next, extending the structure along the through-plane direction (the critical pathway reactants travel inside the fuel cell) ...

Japan and California have embraced hydrogen fuel-cell technologies, a form of renewable energy that can be used in vehicles and for supplying clean energy to manufacturing sectors. But the technology ...

Researchers have found that manganese, an abundant and inexpensive metal, can be used to efficiently convert carbon dioxide into formate, a potential hydrogen source for fuel cells. The key was a ...

Carefully designing platinum catalysts on the atomic scale maximizes their performance in fuel cells. Study: Maximize the Electrocatalytic Activity of Pt Toward Ethanol Oxidation via Engineering PdPt ...

Researchers found manganese-based catalysts can efficiently convert CO2 into formate, a hydrogen source for fuel cells, offering a cheaper, sustainable alternative to precious metals. (Nanowerk News) ...

Just when you thought you’d got a handle on the chemistry behind hydrogen fuel cells, researchers at the Fritz Haber Institute of the Max Planck Society go and shake things up. They’ve found that the ...

The road to a more sustainable planet may be partially paved with manganese. According to a new study by researchers at Yale and the University of Missouri, chemical catalysts containing manganese — ...

For decades, the world has leaned on pricey platinum, making capex sky-high and leaving manufacturers at the mercy of metal-market roller coasters. A platinum-free system that matches or tops Pt in ...