Richard L. Kurtz scite author profile

The direct reduction of CO 2 to CH 3 OH is known to occur at several types of electrocatalysts including oxidized Cu electrodes. In this work, we examine the yield behavior of an electrodeposited cuprous oxide thin film and explore relationships between surface chemistry and reaction behavior relative to air-oxidized and anodized Cu electrodes. CH 3 OH yields (43 lmol cm À2 h À1 ) and Faradaic efficiencies (38%) observed at cuprous oxide electrodes were remarkably higher than air-oxidized or anodized Cu electrodes suggesting Cu(I) species may play a critical role in selectivity to CH 3 OH. Experimental results also show CH 3 OH yields are dynamic and the copper oxides are reduced to metallic Cu in a simultaneous process. Yield behavior is discussed in comparison with photoelectrochemical and hydrogenation reactions where the improved stability of Cu(I) species may allow continuous CH 3 OH generation.

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Synchrotron radiation studies of H2O adsorption on TiO2(110)

Kurtz¹,

Stockbauer²,

Madey³

et al. 1989

Surface Science Letters

143

274

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Synchrotron radiation studies of H2O adsorption on TiO2(110)

et al. 1989

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Surface electronic structure of TiO2: Atomic geometry, ligand coordination, and the effect of adsorbed hydrogen

1981

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Richard L. Kurtz

Electrochemical Reduction of CO2 to CH3OH at Copper Oxide Surfaces

Synchrotron radiation studies of H2O adsorption on TiO2(110)

Synchrotron radiation studies of H2O adsorption on TiO2(110)

Surface electronic structure of TiO2: Atomic geometry, ligand coordination, and the effect of adsorbed hydrogen

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