The hydrogen and renewable natural gas fueling infrastructure market presents growth opportunities driven by rising demand for renewable energy, increased adoption of fuel cell electric vehicles, and ...

A new catalyst strategy developed at Institute of Science Tokyo uses BaSi2 as a support for nickel and cobalt to decompose ...

An economical means of extracting sustainable hydrogen from seawater or freshwater uses artificial or natural light. The process devised by researchers from RMIT University (Australia), University of ...

Scientists from Tokyo Metropolitan University have discovered that a hydrogen-absorbing material shrinks in one direction ...

It ain't from around these parts of space.

Officials have sampled 3 fixed locations and 8 “roving” locations south and east of the landfill in neighborhoods and commercial areas. Agents say they found no detections of any contaminants of ...

A hydrogen-treated metal alloy shrinks instead of expanding when heated, driven by magnetism, offering customizable materials ...

The aircraft fuel cells market presents key opportunities in the hydrogen segment, with high growth from its efficiency and sustainability. Asia's rapid growth is driven by industrial demands and ...

Researchers have identified a class of quantum materials, called topological semimetals, that can split water into hydrogen fuel using nothing but sunlight, sidestepping the expensive platinum-based ...

Researchers developed a catalyst support that lets cheap nickel and cobalt rival expensive ruthenium for producing hydrogen from ammonia at lower temperatures.

As electronic and energy devices continue to shrink, traditional materials increasingly struggle with instability and loss of functionality at nanoscale dimensions.

To that end, Wits University, one of South Africa’s top universities, has announced that it will soon play host to a working ...