Ammonia (NH3) can be decomposed to produce hydrogen gas without releasing CO2. The ease of transport and high hydrogen density make it valuable for the green energy industry. A drawback of using NH3 ...

Making ammonia from nitrogen and hydrogen via the Haber-Bosch process has been critical to fertilizing the world’s crops for more than a century, but there’s been little need to run the reaction in ...

Laser pulses that can shred ammonia molecules dissolved in water may offer a way to generate hydrogen gas without using heat, pressure, or catalysts (J. Am. Chem. Soc. 2024, DOI: 10.1021/jacs.3c13459) ...

A research team has successfully developed the world's first ammonia (NH 3) gas sensor based on a copper bromide (CuBr) film that can be fabricated through a simple solution process at low ...

As hydrogen gains prominence amid the global pursuit of decarbonization and energy security, many major infrastructure projects are considering transportation in the form of ammonia, a safer and more ...

Maritime transport represents 2% of the global greenhouse gas emissions. Ammonia and methanol are the most promising carriers being explored for its decarbonization. H2SITE has produced pure hydrogen ...

Mitsubishi Power has successfully demonstrated partial load and full load combustion of a fuel blend with 30% hydrogen (by volume) in a grid-connected J-series Air-Cooled (JAC) gas turbine. The ...

Dr. Jung Unho's research team at the Hydrogen Research Department of the Korea Institute of Energy Research (KIER) has developed Korea's first clean hydrogen production technology. This technology is ...

Low-temperature on-demand conversion of ammonia to green hydrogen gas in the presence of Ru/CeO2 catalyst and electric field Hydrogen gas, owing to its high energy density and carbon-free nature, is ...