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Abstract
Ni-YSZ electrode is known to perform in CO2 (+H2) stream. Introducing H2 in CO2 containing streams enables thermochemical reverse water gas shift reaction (CO2 + H2 CO + H2O rWGS) at OCV. Without the application of any bias, the rWGS responds positively to an increase in temperature and concentrations of CO2 and H2. Application of bias results in enhancement in CO yield above the rWGS baseline value. With bias, both CO2 and H2O electrolysis are enabled. The infiltration of Cu on the Ni-YSZ backbone was found to significantly improve the reaction kinetics and increase H2 and CO production. Impedance analysis indicates that the kinetic limitation originates from reaction steps with slower time constants with Ni{Cu}x-YSZ outperforming Ni-YSZ in this aspect. Cu infiltration was found to suppress particle coarsening, which is typically observed on Ni-YSZ.
Supplementary materials
Title
Electrochemical and Microscopic Characterisations
Description
Electrochemical data, Impedance Data, Microscopy
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