Industrial production of ammonia, primarily for synthetic fertilizer — the fuel for last century’s Green Revolution — is one of the world’s largest chemical markets, but also one of the most energy ...

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 ...

Researchers at the University of Sydney have developed a groundbreaking way to produce ammonia using electricity and artificial lightning. The innovation offers a cleaner, decentralized alternative to ...

Nitrogen is crucial to plant life, and nitrogen-based fertilizers were essential for crops at the start of the 20th Century to produce more food. Even though there is limited supply of usable nitrogen ...

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 ...

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, ...

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 ...

Green ammonia has become one of the most closely watched candidates for decarbonizing fertilizer and heavy industry, yet its ...

Ammonia is one of the most important chemicals in modern society. It is obtained using the process developed by Carl Bosch 150 years ago. The chemist and process engineer Carl Bosch was born in ...

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 -- ...