Effect of the cooling rate on the structure of the wustite phase in the model iron catalyst for ammonia synthesis

## Abstract BET, scanning electron microscopy, X‐ray diffraction, Mössbauer spectroscopy, X‐ray fluorescence spectroscopy and McBain thermobalance were used to investigate the effect of cobalt on the reduction behavior and activity of used iron catalyst for ammonia synthesis. Activity tests were ca

The surface structure and atomic composition of triply promoted (KzO/A120,/Ca0) fused iron catalysts, used in the industrial synthesis of ammonia, have been examined by temperature-programmed desorption (i) after having been reduced in hydrogen and (ii) after having synthesised ammonia from a hydrog

The suggestion, made by Muhler, Nielsen and Fastrup, that the adsorption ofoxygen on to the reduced, triply promoted, fused, iron ammonia-synthesis catalysts would have poisoned the adsorption of molecular nitrogen into the a,, and az states has been examined and has been shown not to be the case. T

## Abstract The effects of the oxidation state, the ligand, and the solvent on structures and energetics of cationic iron complexes are investigated by means of electrospray‐ionization mass spectrometry. Insights into the potential‐energy surfaces of FeX^+^, FeX~2~^+^, and XFe(OCH~3~)^+^ ions (X =