Scanning transmission electron microscopy experiments have uncovered the structural changes a ruthenium catalyst undergoes ...

NH3 is one of the most important chemicals in today's world, as it is used in the production of fertilizers to boost ...

Strong electron donation from aluminum hydride to iron surface facilitates decomposition nitrogen molecules, followed by ammonia synthesis, even at 50 °C. Image Credit: Institute of Science Tokyo An ...

The production of green hydrogen from ammonia could get a boost from a catalyst that becomes more active over time. Ru nanoclusters react with ammonia molecules, splitting them into hydrogen and ...

Scientists have created a catalyst for hydrogen generation from ammonia that becomes more active with time, and by counting atoms revealed changes that boost the catalyst's performance. Scientists ...

Strong electron donation from aluminum hydride to iron surface facilitates decomposition nitrogen molecules, followed by ammonia synthesis, even at 50°C ...

This study used electron microscopy to analyze atomic-level changes in Ru nanoclusters during ammonia decomposition, offering valuable insights into the evolution of catalyst structures and ...

The developed ammonia synthesiscatalyst increased ammonia production from 0.5 t/month to 5 t/day. That achievement created much sensation in the chemical industry because the catalyst caught up with ...

The new ammonia-fueled SOFC system not only demonstrates the potential of hydrogen-based shipping but also paves the way for ...

For advancing ammonia-based fuels and hydrogen storage through the use of metal amide and imide materials, ammonia synthesis and decomposition catalysts. I'm so grateful that when I arrived in the UK, ...

The study tackles the technical challenges of NH3 fuel SOFC ship power systems, including slow hydrogen production, low efficiency, and limited space.