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Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
by Han, Madeleine , Liang, Liang , Tucoulou, Rémi , Richard, Marie-Ingrid , Lu, Jiasheng , Arinchtein, Aleks , Sprung, Michael , Frisch, Marvin L. , Wu, Longfei , Ren, Zhe , Guo, An , Strasser, Peter , Atlan, Clément , Villanova, Julie , Nong, Hong Nhan
in 147/135 / 147/143 / 147/28 / 639/638/161/886 / 639/925/357/354 / 639/925/930/12 / Absorption spectroscopy / Carbon dioxide / Catalysts / Catalytic activity / Chemical reduction / Copper / Dynamic stability / Electrocatalysts / Electrochemistry / Evolution / Humanities and Social Sciences / Lattice strain / multidisciplinary / Nanoparticles / Nanostructure / Physics / Redox properties / Science / Science (multidisciplinary) / Silver / Synergistic effect / X ray absorption / X-ray absorption spectroscopy
2023
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Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
by Han, Madeleine , Liang, Liang , Tucoulou, Rémi , Richard, Marie-Ingrid , Lu, Jiasheng , Arinchtein, Aleks , Sprung, Michael , Frisch, Marvin L. , Wu, Longfei , Ren, Zhe , Guo, An , Strasser, Peter , Atlan, Clément , Villanova, Julie , Nong, Hong Nhan
in 147/135 / 147/143 / 147/28 / 639/638/161/886 / 639/925/357/354 / 639/925/930/12 / Absorption spectroscopy / Carbon dioxide / Catalysts / Catalytic activity / Chemical reduction / Copper / Dynamic stability / Electrocatalysts / Electrochemistry / Evolution / Humanities and Social Sciences / Lattice strain / multidisciplinary / Nanoparticles / Nanostructure / Physics / Redox properties / Science / Science (multidisciplinary) / Silver / Synergistic effect / X ray absorption / X-ray absorption spectroscopy
2023
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Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
by Han, Madeleine , Liang, Liang , Tucoulou, Rémi , Richard, Marie-Ingrid , Lu, Jiasheng , Arinchtein, Aleks , Sprung, Michael , Frisch, Marvin L. , Wu, Longfei , Ren, Zhe , Guo, An , Strasser, Peter , Atlan, Clément , Villanova, Julie , Nong, Hong Nhan
in 147/135 / 147/143 / 147/28 / 639/638/161/886 / 639/925/357/354 / 639/925/930/12 / Absorption spectroscopy / Carbon dioxide / Catalysts / Catalytic activity / Chemical reduction / Copper / Dynamic stability / Electrocatalysts / Electrochemistry / Evolution / Humanities and Social Sciences / Lattice strain / multidisciplinary / Nanoparticles / Nanostructure / Physics / Redox properties / Science / Science (multidisciplinary) / Silver / Synergistic effect / X ray absorption / X-ray absorption spectroscopy
2023

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Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
Journal Article

Unraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes

Han, Madeleine,
Liang, Liang,
Tucoulou, Rémi,
Richard, Marie-Ingrid,
Lu, Jiasheng,
Arinchtein, Aleks,
Sprung, Michael,
Frisch, Marvin L.,
Wu, Longfei,
Ren, Zhe,
Guo, An,
Strasser, Peter,
Atlan, Clément,
Villanova, Julie,
Nong, Hong Nhan
2023
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Overview
Controlling the selectivity of the electrocatalytic reduction of carbon dioxide into value-added chemicals continues to be a major challenge. Bulk and surface lattice strain in nanostructured electrocatalysts affect catalytic activity and selectivity. Here, we unravel the complex dynamics of synergistic lattice strain and stability effects of Cu-Ag tandem catalysts through a previously unexplored combination of in situ nanofocused X-ray absorption spectroscopy and Bragg coherent diffraction imaging. Three-dimensional strain maps reveal the lattice dynamics inside individual nanoparticles as a function of applied potential and product yields. Dynamic relations between strain, redox state, catalytic activity and selectivity are derived. Moderate Ag contents effectively reduce the competing evolution of H 2 and, concomitantly, lead to an enhanced corrosion stability. Findings from this study evidence the power of advanced nanofocused spectroscopy techniques to provide new insights into the chemistry and structure of nanostructured catalysts. Combining in situ nanoprobe techniques paves the way for gaining insights into structure-selectivity relations for electrocatalysts. Herein, the dynamic evolution of lattice strain in individual nanoparticles is directly visualized with nanoscale resolution in Cu-Ag tandem catalysts during the electrocatalytic conversion of CO2 into value-added chemicals.
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Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject

147/135

/ 147/143

/ 147/28

/ 639/638/161/886

/ 639/925/357/354

/ 639/925/930/12

/ Absorption spectroscopy

/ Carbon dioxide

/ Catalysts

/ Catalytic activity

/ Chemical reduction

/ Copper

/ Dynamic stability

/ Electrocatalysts

/ Electrochemistry

/ Evolution

/ Humanities and Social Sciences

/ Lattice strain

/ multidisciplinary

/ Nanoparticles

/ Nanostructure

/ Physics

/ Redox properties

/ Science

/ Science (multidisciplinary)

/ Silver

/ Synergistic effect

/ X ray absorption

/ X-ray absorption spectroscopy

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