Alkaline fuel cells (AFCs) that employ liquid fuels harness the reaction between a liquid fuel at the anode and oxygen at the cathode in an alkaline medium to generate electricity. The liquid fuels ...

Alkaline fuel cell systems harness the electrocatalytic activity of specialised materials to facilitate charge transfer at the anode and cathode. A prominent example is the anion exchange membrane ...

Platinum costs roughly $31,000 per kilogram. Iron costs less than a dollar. That price gap has haunted the hydrogen fuel-cell ...

With growing interest into the integration of fuel cells for stationary power, many commercial players have chosen to adopt either proton exchange membrane (PEM) or solid oxide fuel cells (SOFC).

If we asked you to think of a device that converts a chemical reaction into electricity, you’d probably say we were thinking of a battery. That’s true, but there is another device that does this that ...

A team of researchers has demonstrated that a single-atom iron catalyst can match platinum’s performance in the oxygen ...

The increased uptake of stationary fuel cells is largely driven by a combination of power demand and grid instability, alongside a global focus on sustainable efforts to move away from fossil fuels.