A computational method combining generative AI with atomistic simulations can identify promising platinum alloy catalyst ...

Researchers at University of Birmingham have developed a new method for producing hydrogen that works at much lower ...

You ever think about how we get hydrogen to go from that messy reformer stream to the pure stuff that fuel cells really want?

With the rise of renewable energy and electric vehicles, hydrogen-powered vehicles have attracted growing interest. Prof. Molly Mengjung Li, Assistant Professor of the Department of Applied Physics at ...

A roadmap to efficient nickel electrocatalysts for hydrogen oxidation. This schematic summarizes the design landscape of Ni-based electrocatalysts for alkaline hydrogen oxidation, covering alloys, ...

A computational method combining generative AI with atomistic simulations can identify promising platinum alloy catalyst ...

University of Birmingham research published today has shown a new low-temperature method for producing hydrogen that is ...

Researchers have developed a new catalyst architecture that dramatically reduces the amount of expensive precious metals required while simultaneously improving hydrogen production and fuel-cell ...

AI meets chemistry: A new AI-driven workflow combines atomistic simulations with generative models to design platinum alloy catalysts for fuel cells. Dual optimization: The system targets both high ...

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.