Abstract
AbstractThe electrochemical reduction of CO2 to CO in aqueous NaClO4 solution saturated with CO2, at polycrystalline Ag cathodes was investigated as a function of the potential, temperature and electrolysis duration. A poisoning process has been found to occur in parallel with the CO formation. Building‐up of the surface species closely similar to the detected poison has been observed at a Ag electrode immersed (at open‐circuit) in a solution containing small amounts (10−4mol dm−3) of formaldehyde. A periodic anodic stripping of these inhibiting species was shown to produce stable current densities and faradaic efficiencies of CO over 4 – 5 h electrolysis runs. A tentative reaction pathway for CO2 reduction to CO, taking into account the experimentally determined onset potential, is proposed.
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