Recently, researchers developed a new electrode material for an electrochemical cell that can efficiently convert excess electricity and water into hydrogen. When demand for electricity increases, the ...

Researchers at Idaho National Laboratory developed advanced ceramic fuel cells that boost hydrogen production efficiency and ...

Manufacturing process and evaluation results of high temperature water electrolysis cell with nanomaterials. Credit: Korea Institute of Science and Technology (KIST) Green hydrogen can be produced ...

Researchers have elucidated the mechanism of the initial degradation phenomenon that triggers the performance drop of high-temperature solid oxide electrolysis cell systems, using advanced ...

Nitrogen-based fertilizers are essential for modern agriculture, and compounds like ammonia and urea are also widely used in industry. However, their conventional production and use pose major ...

The natural gas network may serve as a buffer for weather-dependent electricity from the wind and sun. This requires economically efficient processes to use electricity for the production of chemical ...

A recently concluded IAEA Coordinated Research Project (CRP) examining the use of nuclear power for hydrogen production has helped pave the way for its wider adoption. The project, which wrapped up ...

Steel production accounts for more than seven per cent of global carbon dioxide (CO 2) emissions. That percentage is set to soar in the coming decades, along with a rising demand for steel, which is ...

Electrolytic hydrogen production is a promising option when relatively small or medium flows of hydrogen are required. It is also often useful when high purity hydrogen is required for a variety of ...

While energy sources such as wind and solar are great at producing emissions-free electricity, they depend on the sun and the wind, so supply doesn't always meet the demand. Likewise, nuclear power ...