Abstract
Promotion of Ni/CeO2-nanocube with small amounts of Pt was shown to significantly enhance catalyst stability for steam reforming of ethanol. The main reaction pathway appeared to be essentially ethanol decomposition toward carbon oxides (CO/CO2), H2 and CH4. Further investigation of the stabilizing effect brought about by the presence of the noble metal by different techniques (XPS, TPSR, ethanol TPD, in-situ XAFS) revealed that Pt segregation toward the surface of the Ni particles minimized the formation of nickel carbide phase and consequently decreased catalyst deactivation. Pt addition promotes the hydrogenation of highly active carbon species adsorbed at the surface at a higher rate than carbon diffusion into bulk nickel. These findings points to an alternative way for minimizing the problem of carbon buildup on Ni-based catalysts for steam reforming of ethanol.
Published Version
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