Abstract
The desorption kinetics of H2 from a Cu/ZnO/Al2O3 catalyst for methanol synthesis were studied under atmospheric pressure in a microreactor set-up by performing temperature-programmed desorption (TPD) experiments after various pretreatments of the catalyst. Complete saturation with adsorbed atomic hydrogen was obtained by dosing highly purified H2 for 1 h at 240 K and at a pressure of 15 bar. The TPD spectra showed symmetric H2 peaks centered at around 300 K caused by associative desorption of H2 from Cu metal surface sites. H2 TPD experiments performed with different initial coverages resulted in peak maxima shifting to higher temperatures with lower initial coverages indicating that the desorption of H2 from Cu is of second order. The microkinetic analysis of the TPD traces obtained with different heating rates yielded an activation energy of desorption of 78 kJ mol−1 and a corresponding frequency factor of desorption of 3×1011 s−1> in good agreement with the kinetic parameters obtained with Cu(111) under UHV conditions.
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Genger, T., Hinrichsen, O. & Muhler, M. The temperature-programmed desorption of hydrogen from copper surfaces. Catalysis Letters 59, 137–141 (1999). https://doi.org/10.1023/A:1019076722708
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DOI: https://doi.org/10.1023/A:1019076722708