• Title of article

    Influence of potassium/oxygen layer on properties of iron surfaces Original Research Article

  • Author/Authors

    W Arabczyk، نويسنده , , U Narkiewicz، نويسنده , , D Moszy?ski، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    6
  • From page
    379
  • To page
    384
  • Abstract
    Influence of oxygen concentration in the iron bulk on desorption of potassium from the iron surface has been studied. Desorption of potassium from the iron surface, clean and precovered with oxygen, has been examined. It has been found that the higher the oxygen concentration in the bulk the higher the temperature required to decompose the potassium/oxygen layer existing on the iron surface. Sufficient oxygen concentration in the iron bulk makes potassium/oxygen layer to be stable on iron surface even at the temperature of ammonia synthesis. Diffusion of promoters from the surface of the iron catalyst onto a clean iron foil has also been studied. Only potassium tends to diffuse from the iron catalyst to the clean surface of iron. Considering the results of those experiments, model of the active surface of iron catalyst has been proposed. An adlayer consisting of equal amount of potassium and oxygen atoms is formed on the iron surface. The free sites for dinitrogen adsorption and ammonia formation are located under potassium layer in voids in the oxygen layer. Oxygen atoms bridge iron and potassium atoms and increase thermal stability of potassium on the iron surface. Based on that model, influence of potassium on ammonia decomposition has been interpreted. Some other catalyst properties have been derived from the model.Considering the results of those experiments, model of the active surface of iron catalyst has been proposed. An adlayer consisting of equal amount of potassium and oxygen atoms is formed on the iron surface. The free sites for dinitrogen adsorption and ammonia formation are located under potassium layer in voids in the oxygen layer. Oxygen atoms bridge iron and potassium atoms and increase thermal stability of potassium on the iron surface. Based on that model, influence of potassium on ammonia decomposition has been interpreted. Some other catalyst properties have been derived from the model.
  • Keywords
    Potassium , Iron catalyst , Desorption , Ammonia
  • Journal title
    Applied Catalysis A:General
  • Serial Year
    1999
  • Journal title
    Applied Catalysis A:General
  • Record number

    1149720