Mass spectrometry and in situ infrared diffuse reflectance analysis of the decomposition of HCOOH adsorbed on Ln2O3-promoted Rh/Al2O3 catalysts
Abstract
In order to ascertain the role of formate ion in COx methanation, the decomposition of adsorbed formate on a series of lanthanide-promoted Rh/Al2O3 catalysts (Ln = La, Ce, Sm, Yb, Lu) is reported. On the supports the decomposition occurs through a dehydration mechanism. The decomposition process is drastically modified on the rhodium catalysts, in these cases the decomposition proceeds mainly through a dehydrogenation reaction. Moreover, the decomposition temperature is decreased by 100 K with respect to the one observed on the supports alone. The presence of small amounts of gas-phase CO together with the appearance of adsorbed CO at the dehydrogenation temperatures leads us to propose that the HCOO– generated during COx methanation cannot be considered as a non-reactive species. The CO seems to proceed from CO2 dissociation, its yield being a function of the metal dispersion which is determined by the promoter. The thermal stability of adsorbed CO is also determined by the promoter and is related to the activity of the catalyst in the COx methanation.