Developing new materials can involve a dizzying amount of trial and error for different configurations and elements.

Researchers from the Technion and Sweden’s Chalmers University developed a new palladium-based method to improve hydrogen storage for clean transport, industry, and energy.

As the hydrogen economy moves from bold ambition to tangible reality, the challenge is clear: we need materials that can ...

Hydrogen is expected to play a central role in future clean energy systems, but storing it efficiently and safely remains one of the biggest challenges to its widespread adoption. Solid-state hydrogen ...

The global green hydrogen market is experiencing exponential growth, driven by decarbonization targets, with forecasts projecting substantial long-term value. Key growth drivers include rising demand ...

New materials promise safe, efficient hydrogen storage. Credit: H2MOF Storage and transport challenges are key reasons that hydrogen has not been widely adopted as a fuel. Compression and liquefaction ...

A cubic arrangement of larger gray spheres interspersed with smaller green spheres. Hydrogen ions (small green spheres) chemically bond to magnesium (large gray spheres) in magnesium hydride, which is ...

New York State awarded $6.9 million in funding for clean hydrogen research and development projects on Long Island. The funding is part of $11 million that was awarded to five projects across the ...

In this new era, flexible gas-based generation is an enabler of growth powering data centers from behind-the-meter when grid ...

Compressing hydrogen demands high pressures; liquefying it requires extreme cooling. Both approaches carry energy penalties, safety considerations, and infrastructure costs that limit wider adoption.

State supporting development of hydrogen storage infrastructure as a way to drive down the costs and increase availability of hydrogen as a cleaner fuel Gov. Kathy Hochul delivers a speech during a ...