Selective electrochemical reduction of CO2 to CO on CuO-derived Cu nanowires

Ming Ma; Kristina Djanashvili; Wilson A. Smith

doi:10.1039/c5cp03559g

Selective electrochemical reduction of CO₂ to CO on CuO-derived Cu nanowires

Ming Ma
, Kristina Djanashvili
, Wilson A. Smith

School of Chemical Engineering and Technology

Delft University of Technology

Research output: Contribution to journal › Article › peer-review

168 Scopus citations

Abstract

In this work, we report a new synthesis method to prepare a Cu nanowire electrocatalyst for selective CO₂ reduction at room temperature and atmospheric pressure. Cu nanowire array electrodes were prepared through a two-step synthesis of Cu(OH)₂ and CuO nanowire arrays on Cu foil substrates and a subsequent electrochemical reduction of the CuO nanowire arrays. The Cu nanowire arrays are able to electrochemically reduce CO₂ to CO with a faradaic efficiency of ∼50% at a moderate overpotential of 490 mV, which is significantly higher than that of polycrystalline Cu foil catalysts at identical conditions. The improved faradaic efficiency for the reduction of CO₂ to CO is ascribed to the enhanced stabilization for the CO₂^- intermediate on the high surface area Cu nanowire arrays.

Original language	English
Pages (from-to)	20861-20867
Number of pages	7
Journal	Physical Chemistry Chemical Physics
Volume	17
Issue number	32
DOIs	https://doi.org/10.1039/c5cp03559g
State	Published - 28 Aug 2015

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title = "Selective electrochemical reduction of CO2 to CO on CuO-derived Cu nanowires",

abstract = "In this work, we report a new synthesis method to prepare a Cu nanowire electrocatalyst for selective CO2 reduction at room temperature and atmospheric pressure. Cu nanowire array electrodes were prepared through a two-step synthesis of Cu(OH)2 and CuO nanowire arrays on Cu foil substrates and a subsequent electrochemical reduction of the CuO nanowire arrays. The Cu nanowire arrays are able to electrochemically reduce CO2 to CO with a faradaic efficiency of ∼50\% at a moderate overpotential of 490 mV, which is significantly higher than that of polycrystalline Cu foil catalysts at identical conditions. The improved faradaic efficiency for the reduction of CO2 to CO is ascribed to the enhanced stabilization for the CO2- intermediate on the high surface area Cu nanowire arrays.",

author = "Ming Ma and Kristina Djanashvili and Smith, \{Wilson A.\}",

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T1 - Selective electrochemical reduction of CO2 to CO on CuO-derived Cu nanowires

AU - Ma, Ming

AU - Djanashvili, Kristina

AU - Smith, Wilson A.

N1 - Publisher Copyright: © the Owner Societies 2015.

PY - 2015/8/28

Y1 - 2015/8/28

N2 - In this work, we report a new synthesis method to prepare a Cu nanowire electrocatalyst for selective CO2 reduction at room temperature and atmospheric pressure. Cu nanowire array electrodes were prepared through a two-step synthesis of Cu(OH)2 and CuO nanowire arrays on Cu foil substrates and a subsequent electrochemical reduction of the CuO nanowire arrays. The Cu nanowire arrays are able to electrochemically reduce CO2 to CO with a faradaic efficiency of ∼50% at a moderate overpotential of 490 mV, which is significantly higher than that of polycrystalline Cu foil catalysts at identical conditions. The improved faradaic efficiency for the reduction of CO2 to CO is ascribed to the enhanced stabilization for the CO2- intermediate on the high surface area Cu nanowire arrays.

AB - In this work, we report a new synthesis method to prepare a Cu nanowire electrocatalyst for selective CO2 reduction at room temperature and atmospheric pressure. Cu nanowire array electrodes were prepared through a two-step synthesis of Cu(OH)2 and CuO nanowire arrays on Cu foil substrates and a subsequent electrochemical reduction of the CuO nanowire arrays. The Cu nanowire arrays are able to electrochemically reduce CO2 to CO with a faradaic efficiency of ∼50% at a moderate overpotential of 490 mV, which is significantly higher than that of polycrystalline Cu foil catalysts at identical conditions. The improved faradaic efficiency for the reduction of CO2 to CO is ascribed to the enhanced stabilization for the CO2- intermediate on the high surface area Cu nanowire arrays.

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DO - 10.1039/c5cp03559g

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AN - SCOPUS:84938590872

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JO - Physical Chemistry Chemical Physics

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IS - 32

ER -

Selective electrochemical reduction of CO₂ to CO on CuO-derived Cu nanowires

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