Rui Peng scite author profile

Though carbon dioxide is a waste product of combustion, it can also be a potential feedstock for the production of fine and commodity organic chemicals provided that an efficient means to convert it to useful organic synthons can be developed. Herein we report a common element, nanostructured catalyst for the direct electrochemical conversion of CO 2 to ethanol with high Faradaic efficiency (63 % at À1.2 V vs RHE) and high selectivity (84 %) that operates in water and at ambient temperature and pressure. Lacking noble metals or other rare or expensive materials, the catalyst is comprised of Cu nanoparticles on a highly textured, N-doped carbon nanospike film. Electrochemical analysis and density functional theory (DFT) calculations suggest a preliminary mechanism in which active sites on the Cu nanoparticles and the carbon nanospikes work in tandem to control the electrochemical reduction of carbon monoxide dimer to alcohol.

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Two-dimensional Janus PtSSe for photocatalytic water splitting under the visible or infrared light

Peng

et al. 2019

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Rui Peng

A physical catalyst for the electrolysis of nitrogen to ammonia

High‐Selectivity Electrochemical Conversion of CO₂ to Ethanol using a Copper Nanoparticle/N‐Doped Graphene Electrode

Two-dimensional Janus PtSSe for photocatalytic water splitting under the visible or infrared light

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Rui Peng

A physical catalyst for the electrolysis of nitrogen to ammonia

High‐Selectivity Electrochemical Conversion of CO2 to Ethanol using a Copper Nanoparticle/N‐Doped Graphene Electrode

Two-dimensional Janus PtSSe for photocatalytic water splitting under the visible or infrared light

Contact Info

Product

Resources

About

High‐Selectivity Electrochemical Conversion of CO₂ to Ethanol using a Copper Nanoparticle/N‐Doped Graphene Electrode