Genesis of iron carbides and their role in the synthesis of hydrocarbons from synthesis gas

A series of iron-based Fischer-Tropsch catalysts, either pure or promoted with Cc or Mn, were subjected to different activation treatments with H-2, CO, or H-2/CO. The surface species formed after different treatments were characterized by temperature-programmed surface reaction with hydrogen (TPSR-H-2) and temperature-programmed surface desorption with argon (TPD-Ar). After activation and temperature-programmed treatments, the samples were passivated and characterized by X-ray diffraction and Raman spectroscopy. After each activation treatment, the catalysts were tested in the Fischer-Tropsch synthesis, and selected postreaction samples were characterized by Mossbauer spectroscopy. After CO and syngas treatment, cementite (theta-Fe3C) and Hagg (chi-Fe2.5C) carbides were formed, respectively. Different surface carbonaceous species were stabilized over these carbides. Cementite species are less active in the Fischer-Tropsch synthesis; however, under the Fischer-Tropsch reaction environment, they can evolve into the Hagg carbide, over which the more active carbonaceous intermediate species are formed. Modification of the catalyst composition by Mn and Cc is effective only when the samples are activated under CO, accelerating the stabilization of active carbonaceous intermediates. (c) 2006 Elsevier Inc. All rights reserved.