In a study appearing in Nature Catalysis, researchers from the Inorganic Chemistry Department of the Fritz Haber Institute ...

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 ...

The startup has a new take on the Haber-Bosch process used o make ammonia. If Ammobia can deliver, it could change industries from power generation to maritime shipping.

Researchers from the Inorganic Chemistry Departments of the Fritz Haber Institute revealed how structural changes on the surface and in the bulk region of the cobalt oxide catalyst Co3O4 influence its ...

Researchers developed a catalyst that converts nitrate pollution in water into ammonia with 94.8% efficiency, offering a cleaner alternative to the Haber-Bosch process. (Nanowerk News) Producing ...

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 ...

More than 100 years after the introduction of the Haber-Bosch process, scientists continue to search for alternative ammonia production routes that are less energy demanding. Scientists have now ...

Catalyst Activation: Identified as the critical step where the active catalyst is formed. Promoter Role: Promoters form cementitious phases that play a pivotal role in enhancing catalyst performance.

Nitrogen is one of the most abundant elements on the planet, but until the turn of the 20th century nitrogen compounds were still hard to come by. So-called nitrogen fixation in compounds such as ...