Electrochemical promotion and characterization of PdZn alloy catalysts with K and Na ionic conductors for pure gaseous CO2 hydrogenation

[Display omitted] •PdZn alloy was used for the first time as a catalytic electrochemical film.•The PdZn alloy proved to be active for CO2 hydrogenation to give CO and CH3OH.•The EPOC effect varies depending on the particles (metallic Pd or PdZn alloy).•The apparent Faradaic efficiency for CO reached...

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Bibliographic Details
Published in:Journal of CO2 utilization 2016-12, Vol.16, p.375-383
Main Authors: Díez-Ramírez, J., Sánchez, P., Valverde, J.L., Dorado, F.
Format: Article
Language:English
Subjects:
CO2 hydrogenation
Electrochemical promotion of catalysis (EPOC)
Methanol production
PdZn alloy
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Summary:[Display omitted] •PdZn alloy was used for the first time as a catalytic electrochemical film.•The PdZn alloy proved to be active for CO2 hydrogenation to give CO and CH3OH.•The EPOC effect varies depending on the particles (metallic Pd or PdZn alloy).•The apparent Faradaic efficiency for CO reached values higher than 1000. A PdZn alloy has been used for the first time as a catalytic electrochemical film for CO2 hydrogenation. Three different electrochemical systems were prepared to study the influence of the Pd/Zn ratio and the presence of potassium and sodium ions. These catalysts were characterized by XRD, SEM and cyclic voltammetry and then tested in the hydrogenation of CO2 at three different H2/CO2 feed ratios (3, 9 and 39) and three temperatures (300, 320 and 340°C) with electrochemical promotion by Na+ and K+ ions. CH3OH and CO were the only two products detected. During the electrochemical promotion, a low quantity of ions increases the formation rate of CH3OH and a high quantity leads to the poisoning of the PdZn active sites. The catalysts which have palladium and the palladium-zinc alloy in their structure show an electrophilic behavior in the CO formation and when only the alloy is formed in the catalyst, the CO has the same behavior found for the methanol. Apparent Faradaic efficiency values above 1000 were obtained under the different conditions tested.
ISSN:2212-9820
2212-9839
DOI:10.1016/j.jcou.2016.09.007