Comparative study between methane and ethane in catalytic partial oxidation over Pt and Rh foils using molecular-beam technique

The effect of energetic activation of methane and ethane using molecular-beam techniques in their oxidation with O2 under steady-state condition was investigated over Pt and Rh foils. Energetic activation of methane and ethane by heating and seeding promoted the catalytic partial oxidation and enhanced hydrogen formation in particular. Based on the results on the reaction order measurements over Pt foil, one possible explanation for the promotion is that the energetically activated methane and ethane react with adsorbed oxygen and produce methoxy and ethoxy species, which are regarded as precursors for hydrogen formation. The production rates over Rh foil were smaller then over Pt foil, and lower O2 partial pressure was required to produce CO and hydrogen, which is related to the higher oxygen affinity of Rh.

Graphical abstractThe effect of energetic activation of methane and ethane using molecular-beam techniques in catalytic partial oxidation under steady-state condition was investigated over Pt and Rh foils. Energetic activation of methane and ethane by heating and seeding promoted the catalytic partial oxidation and enhanced hydrogen formation in particular.Figure optionsDownload full-size imageDownload as PowerPoint slide