Ammonia decomposition represents a pivotal process in the emerging hydrogen economy, offering a viable route to sustainably generate COx‐free hydrogen. This process converts ammonia (NH3) into ...

Researchers from Tokyo Metropolitan University have revealed how a catalyst in a promising chemical reaction for industry helps make ammonia, a major ingredient in fertilizer. Copper oxide is a key ...

Ammonia has enormous potential as a fuel of the future, but most current production methods make it a dirty source of energy. Yet a new method from MIT that would derive the compound using the Earth's ...

Researchers in South Korea have developed a cobalt-iron (CoFe)-based non-noble metal ammonia decomposition catalyst, advancing eco-friendly hydrogen production. The research team led by Dr. Su-Un Lee ...

Researchers in South Korea have developed a cobalt-iron (CoFe)-based non-noble metal ammonia decomposition catalyst, advancing eco-friendly hydrogen production. The work is published in the Chemical ...

Look ma, no Haber-Bosch Process! In the latest bid to greenify ammonia production, researchers at Stanford University and King Fahd University of Petroleum and Minerals have come up with a portable ...

Researchers at Tohoku University have uncovered key principles that could advance sustainable ammonia production by electrochemically converting nitrate waste. Ammonia production today relies heavily ...

Researchers discovered that copper oxide catalysts form metallic copper mid-reaction, triggering a dramatic boost in ammonia output. The insight offers a roadmap for designing cleaner, more efficient ...