Electrochemical reduction of CO2 to ethylene glycol on imidazolium ion-terminated self-assembly monolayer-modified Au electrodes in an aqueous solution

Electrochemical reduction of CO2 to ethylene glycol on imidazolium ion-terminated self-assembly monolayer-modified Au electrodes in an aqueous solution

Imidazolium ion-terminated self-assembled monolayer (SAM)-modified electrodes achieve CO2 conversion while suppressing hydrogen evolution. Immobile imidazolium ion on gold (Au) electrodes reduce CO2 at low overpotential. The distance between electrode and imidazolium ion separated by alkane thiol af...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2015-10, Vol.17 (39), p.26072-26078
Hauptverfasser: Tamura, Jun, Ono, Akihiko, Sugano, Yoshitsune, Huang, Chingchun, Nishizawa, Hideyuki, Mikoshiba, Satoshi
Format: Artikel
Sprache:eng
Schlagworte:
Aqueous electrolytes
Carbon dioxide
Carbon monoxide
Electrodes
Ethylene glycol
Gold
Reduction (electrolytic)
Self assembly
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Zusammenfassung:Imidazolium ion-terminated self-assembled monolayer (SAM)-modified electrodes achieve CO2 conversion while suppressing hydrogen evolution. Immobile imidazolium ion on gold (Au) electrodes reduce CO2 at low overpotential. The distance between electrode and imidazolium ion separated by alkane thiol affects CO2 reduction activity. CO2 reduction current depends on the tunnel current rate. Although the product of CO2 reduction at the bare Au electrode is CO, SAM-modified electrodes produce ethylene glycol in aqueous electrolyte solution without CO evolution. The faradaic efficiency reached a maximum of 87%. CO2 reduction at SAM-modified electrodes is unaffected by reduction activity of Au electrode. This phenomenon shows that the reaction field of CO2 reduction is not the electrode surface but the imidazolium ion monolayer.
ISSN:1463-9076
1463-9084
DOI:10.1039/c5cp03028e