Rechargeable, room-temperature stable battery possible using rare earth-based battery electrolyte harnessing hydride ions: Nature paper.

A hydrogen battery that operates at just 90 °C has been developed by researchers from Japan, overcoming the high-temperature ...

A research team has developed a composite catalyst using the novel material MXene that suppresses the generation of chloride ...

KIMS unveils MXene-based catalyst that resists chloride corrosion and doubles durability in seawater electrolysis.

Hydrogen electrolysis efficiency is explained with Verdagy’s Dynamic AWE, a US design that normalizes performance and exceeds ...

DALIAN -- A team of Chinese scientists has developed the first hydride ion prototype battery, laying a solid foundation for ...

A Switzerland-based energy storage group with U.S. headquarters in California has joined with Pacific Gas & Electric (PG&E) ...

Japanese utility giant JERA and automotive technology firm DENSO have begun Japan’s first demonstration of hydrogen ...

Scientists achieve the first real-time nanoscale observation of iron formation with hydrogen plasma, opening a path to ...

Researchers in Australia have developed a promising alternative to lithium-ion batteries using rechargeable aqueous zinc battery (AZB) technology. A team of Australia's University of Adelaide (UoA) ...

Hydrogen has long been championed as a clean energy carrier, but storing it has proven difficult. Conventional methods require either compressing hydrogen at extremely high pressure (350–700 bar) or ...

Hydride ion (H-), with their low mass and high redox potential, are considered promising charge carriers for next-generation ...