Chiara Genovese scite author profile

The carbon–carbon coupling via electrochemical reduction of carbon dioxide represents the biggest challenge for using this route as platform for chemicals synthesis. Here we show that nanostructured iron (III) oxyhydroxide on nitrogen-doped carbon enables high Faraday efficiency (97.4%) and selectivity to acetic acid (61%) at very-low potential (−0.5 V vs silver/silver chloride). Using a combination of electron microscopy, operando X-ray spectroscopy techniques and density functional theory simulations, we correlate the activity to acetic acid at this potential to the formation of nitrogen-coordinated iron (II) sites as single atoms or polyatomic species at the interface between iron oxyhydroxide and the nitrogen-doped carbon. The evolution of hydrogen is correlated to the formation of metallic iron and observed as dominant reaction path over iron oxyhydroxide on oxygen-doped carbon in the overall range of negative potential investigated, whereas over iron oxyhydroxide on nitrogen-doped carbon it becomes important only at more negative potentials.

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Mechanism of C–C bond formation in the electrocatalytic reduction of CO₂ to acetic acid. A challenging reaction to use renewable energy with chemistry

Genovese

et al. 2017

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Electrocatalytic conversion of CO2 to liquid fuels using nanocarbon-based electrodes

Genovese

Ampelli

Perathoner

et al. 2013

Journal of Energy Chemistry

109

108

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Electrocatalytic conversion of CO2 on carbon nanotube-based electrodes for producing solar fuels

Genovese

Ampelli

Perathoner

2013

Journal of Catalysis

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Chiara Genovese

Operando spectroscopy study of the carbon dioxide electro-reduction by iron species on nitrogen-doped carbon

Mechanism of C–C bond formation in the electrocatalytic reduction of CO₂ to acetic acid. A challenging reaction to use renewable energy with chemistry

Electrocatalytic conversion of CO2 to liquid fuels using nanocarbon-based electrodes

Electrocatalytic conversion of CO2 on carbon nanotube-based electrodes for producing solar fuels

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Chiara Genovese

Operando spectroscopy study of the carbon dioxide electro-reduction by iron species on nitrogen-doped carbon

Mechanism of C–C bond formation in the electrocatalytic reduction of CO2 to acetic acid. A challenging reaction to use renewable energy with chemistry

Electrocatalytic conversion of CO2 to liquid fuels using nanocarbon-based electrodes

Electrocatalytic conversion of CO2 on carbon nanotube-based electrodes for producing solar fuels

Contact Info

Product

Resources

About

Mechanism of C–C bond formation in the electrocatalytic reduction of CO₂ to acetic acid. A challenging reaction to use renewable energy with chemistry