The application of hydrogen energy faces numerous technical challenges. Its extremely high explosiveness and diffusivity mean that its production, storage, and transportation require highly ...

Researchers found a mechanochemical way to store maximum hydrogen in perovskite, boosting ammonia production while saving energy and supporting sustainability. (Nanowerk News) Researchers led by Genki ...

Deep beneath our feet, scientists are mapping what looks like a vast new energy frontier: naturally occurring hydrogen locked in rocks and ancient faults. If the emerging methods to find and tap this ...

The facility will use solar power to generate hydrogen used to run a modified GE Vernova combustion turbine during times of peak grid demand.

Washington, D.C.—Scientists at the Carnegie Institution have found for the first time that high pressure can be used to make a unique hydrogen-storage material. The discovery paves the way for an ...

Scientists compared hydrogen storage techniques and found that physical methods are closer to commercial feasibility, while materials-based techniques have strong potential. They concluded that ...

Researchers at Deakin’s Institute for Frontier Materials have discovered a new method, “ball milling,” to store gas in a special nanomaterial at room temperature. The method relies on mechanochemical ...

A novel solid electrolyte developed at the Institute of Science Tokyo enhances hydrogen storage, enabling safe, efficient ...

Conventional hydrogen storage methods have relied on either high-pressure gas compression (350–700 bar) or cryogenic liquefaction at temperatures as low as –253°C. However, these approaches are ...

Hydrogen energy is a renewable and clean energy source that is becoming central to the global energy transformation. The International Energy Agency report anticipates that the global hydrogen energy ...