The Haber–Bosch process for making ammonia has been world-changing, but is highly energy-intensive owing to the high temperatures and pressures involved. A detailed understanding of the catalytic ...

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 ...

Ammonia (NH3) is a colorless chemical compound comprised of nitrogen and hydrogen that is widely used in agriculture and in ...

Tsubame BHB is unique in that it offers production processes at a lower temperature and lower pressure than the conventional ...

The revolutionary use of ammonia (NH3) * as a fertilizer has greatly benefited human food production. Recently, it has drawn attention again, as the use of green ammonia is considered a significant ...

Australian scientists have discovered a method to produce ammonia—an essential component in fertilizers—using only air and electricity. By mimicking lightning and channeling that energy through a ...

To find the right mix of metals for their green ammonia catalyst, scientists turned to AI. The result was a breakthrough that makes their technique of producing ammonia from air and water more ...

University of Sydney researchers have harnessed human-made lightning to develop a more efficient method of generating ammonia—one of the world's most important chemicals. Ammonia is also the main ...

Synthesizing ammonia, the key ingredient in fertilizer, is energy intensive and a significant contributor to greenhouse gas warming of the planet. Chemists designed and synthesized porous materials -- ...

In this study, ultrasmall molybdenum (Mo) metal particles were used to help break the triple bonds between nitrogen atoms in nitrogen gas (N2) at lower than standard temperatures and pressure, thus ...