Iron oxide 'oxygen sponge' doubles green hydrogen production efficiency by targeting atomic-level active sites

An iron oxide 'oxygen sponge' for efficient thermochemical hydrogen production

As the world shifts toward sustainable energy sources, 'green hydrogen' - hydrogen produced without emitting carbon - has emerged as a leading candidate for clean power. Scientists have now developed a new iron-based catalyst that more than doubles the conversion efficiency of thermochemical green hydrogen production.

Iron oxide 'oxygen sponge' doubles green hydrogen production efficiency by targeting atomic-level active sites

As the world shifts toward sustainable energy sources, "green hydrogen"—hydrogen produced without emitting carbon—has emerged as a leading candidate for clean power. In a significant step forward, a research team has developed a new iron-based catalyst that more than doubles the conversion efficiency of thermochemical green hydrogen production.

MXene boosts the effectiveness of catalysts for green hydrogen production - Hydrogen Central

MXene boosts the effectiveness of catalysts for green hydrogen production Green hydrogen is set to play an important role in the future energy system: it can be used for storing chemical energy, as a raw material for the chemical industry, and for producing climate‑friendly fuels. Green hydrogen can be generated in a nearly climate‑neutral manner if the energy used for electrolysis—the process of splitting water into its elements—comes from sola…

As the world moves towards sustainable energy sources, "green hydrogen" – hydrogen produced without carbon emissions – has become a leading candidate for clean power. In a significant step forward, a research team has developed a new iron-based catalyst that doubles more than [...]