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A direct in situ observation of water-enhanced proton conductivity of Eu-doped ZrO₂: Effect on WGS reaction

ICMS

Nuria García-Moncada, Luis F. Bobadilla, Rosalía Poyato, Carlos López-Cartes, Francisca Romero-Sarria, Miguel Ángel Centeno, José Antonio Odriozola Applied Catalysis B: Environmental 2018, Vol. 231, 343-356

Eu-doped ZrO₂ solid solutions have been synthesized in order to prepare proton conductors as water-enhancer additives for the WGS reaction. Elemental characterization has been carried out revealing homogeneous dopant distribution resulting in fluorite-type solid solutions for Eu₂O₃ contents up to ∼9 mol.%. Representative samples of the Eu-doped ZrO₂series have been analysed by Impedance Spectroscopy (IS) in inert, oxygen and wet conditions. The solid solution with 5 mol.% of Eu₂O₃ has presented the highest conductivity values for all tested conditions indicating an optimal amount of dopant. Moreover, the presence of vapour pressure results in an increment of the conductivity at temperatures lower than 300 °C, meanwhile at higher temperatures the conductivity is the same than that in inert conditions. To elucidate these results, in situ DRIFTS studies were carried out. These experiments evidenced the existence of water dissociation at oxygen vacancies (band at 3724 cm⁻¹) as well as the presence of physisorbed water at temperatures up to ∼300 °C where the band at 5248 cm⁻¹ characteristic of these species disappeared. These results points to a layer model where the physisorbed water interacts with surface hydroxyls generated by dissociated water that improves the proton conductivity through Grotthuss’ mechanism in the RT-300 °C temperature range. These samples were successfully tested in WGS reaction as additive to a typical Pt-based catalyst. The presence of the mixed oxide reveals an increase of the catalyst’ activity assisted by the proton conductor, since improves the water activation step.

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