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

Ammonia sits at the heart of modern agriculture and heavy industry, but the way the world makes it today is one of the most ...

Fixation of Nitrogen (N2) to Ammonia (NH3) is an essential process for maintaining life on earth. Currently, Ammonia (NH3) production is dominated by the Haber–Bosch process. It operates under ...

In America, corn syrup is king, and real sugar hovers somewhere around prince status. We’re addicted to corn, and corn, in turn, is addicted to nitrogen. A long time ago, people figured out that by ...

We here on Earth live at the bottom of an ocean of nitrogen. Nearly 80% of every breath we take is nitrogen, and the element is a vital component of the building blocks of life. Nitrogen is critical ...

Renner and Sankaran have resurrected an element from a little-known Norwegian method that predated Haber-Bosch (the Birkeland-Eyde process), which reacted nitrogen and oxygen to produce nitrates, ...

There’s a good chance you owe your existence to the Haber-Bosch process. This industrial chemical reaction between hydrogen and nitrogen produces ammonia, the key ingredient to synthetic fertilizers ...

This story was originally published by WIRED and is reproduced here as part of the Climate Desk collaboration. Of all the elements that make up Earth's atmosphere, nitrogen is by far the most abundant ...

New research has resulted in a greater understanding of how the Haber-Bosch process converts nitrogen to ammonia. For the past 100 years, the Haber-Bosch process has been used to convert atmospheric ...

Five hundred degrees Celsius and 200 bar – these are the conditions usually required to get nitrogen to combine with hydrogen to generate ammonia. Only in this form can the nitrogen be used by plants.