Maximizing Ag Utilization in High-Rate CO2 Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode

Riming Wang; Henrik Haspel; Alexey Pustovarenko; Alla Dikhtiarenko; Artem Russkikh; Genrikh Shterk; Dmitrii Osadchii; Samy Ould-Chikh; Ming Ma; Wilson A. Smith; Kazuhiro Takanabe; Freek Kapteijn; Jorge Gascon

doi:10.1021/acsenergylett.9b01509

Maximizing Ag Utilization in High-Rate CO₂ Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode

Riming Wang
, Henrik Haspel
, Alexey Pustovarenko
, Alla Dikhtiarenko
, Artem Russkikh
, Genrikh Shterk
, Dmitrii Osadchii
, Samy Ould-Chikh
, Ming Ma
, Wilson A. Smith
, Kazuhiro Takanabe
, Freek Kapteijn
, Jorge Gascon

Delft University of Technology
King Abdullah University of Science and Technology
The University of Tokyo

科研成果: 期刊稿件 › 文章 › 同行评审

102 引用（Scopus）

摘要

We report the preparation and electrocatalytic performance of silver-containing gas diffusion electrodes (GDEs) derived from a silver coordination polymer (Ag-CP). Layer-by-layer growth of the Ag-CP onto porous supports was applied to control Ag loading. Subsequent electro-decomposition of the Ag-CP resulted in highly selective and efficient CO₂-to-CO GDEs in aqueous CO₂ electroreduction. Afterward, the metal-organic framework (MOF)-mediated approach was transferred to a gas-fed flow electrolyzer for high current density tests. The in situ formed GDE, with a low silver loading of 0.2 mg cm^-2, showed a peak performance of j_CO ≈ 385 mA cm^-2 at around -1.0 V vs RHE and stable operation with high FE_CO (>96%) at j_Total = 300 mA cm^-2 over a 4 h run. These results demonstrate that the MOF-mediated approach offers a facile route for manufacturing uniformly dispersed Ag catalysts for CO₂ electrochemical reduction by eliminating ill-defined deposition steps (drop-casting, etc.) while allowing control of the catalyst structure through self-assembly.

源语言	英语
页（从-至）	2024-2031
页数	8
期刊	ACS Energy Letters
卷	4
期	8
DOI	https://doi.org/10.1021/acsenergylett.9b01509
出版状态	已出版 - 9 8月 2019
已对外发布	是

联合国可持续发展目标

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可持续发展目标 7 经济适用的清洁能源

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10.1021/acsenergylett.9b01509

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Wang, R., Haspel, H., Pustovarenko, A., Dikhtiarenko, A., Russkikh, A., Shterk, G., Osadchii, D., Ould-Chikh, S., Ma, M., Smith, W. A., Takanabe, K., Kapteijn, F., & Gascon, J. (2019). Maximizing Ag Utilization in High-Rate CO₂ Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode. ACS Energy Letters, 4(8), 2024-2031. https://doi.org/10.1021/acsenergylett.9b01509

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title = "Maximizing Ag Utilization in High-Rate CO2 Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode",

abstract = "We report the preparation and electrocatalytic performance of silver-containing gas diffusion electrodes (GDEs) derived from a silver coordination polymer (Ag-CP). Layer-by-layer growth of the Ag-CP onto porous supports was applied to control Ag loading. Subsequent electro-decomposition of the Ag-CP resulted in highly selective and efficient CO2-to-CO GDEs in aqueous CO2 electroreduction. Afterward, the metal-organic framework (MOF)-mediated approach was transferred to a gas-fed flow electrolyzer for high current density tests. The in situ formed GDE, with a low silver loading of 0.2 mg cm-2, showed a peak performance of jCO ≈ 385 mA cm-2 at around -1.0 V vs RHE and stable operation with high FECO (>96\%) at jTotal = 300 mA cm-2 over a 4 h run. These results demonstrate that the MOF-mediated approach offers a facile route for manufacturing uniformly dispersed Ag catalysts for CO2 electrochemical reduction by eliminating ill-defined deposition steps (drop-casting, etc.) while allowing control of the catalyst structure through self-assembly.",

author = "Riming Wang and Henrik Haspel and Alexey Pustovarenko and Alla Dikhtiarenko and Artem Russkikh and Genrikh Shterk and Dmitrii Osadchii and Samy Ould-Chikh and Ming Ma and Smith, \{Wilson A.\} and Kazuhiro Takanabe and Freek Kapteijn and Jorge Gascon",

note = "Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

year = "2019",

month = aug,

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doi = "10.1021/acsenergylett.9b01509",

language = "英语",

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Wang, R, Haspel, H, Pustovarenko, A, Dikhtiarenko, A, Russkikh, A, Shterk, G, Osadchii, D, Ould-Chikh, S, Ma, M, Smith, WA, Takanabe, K, Kapteijn, F & Gascon, J 2019, 'Maximizing Ag Utilization in High-Rate CO₂ Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode', ACS Energy Letters, 卷 4, 号码 8, 页码 2024-2031. https://doi.org/10.1021/acsenergylett.9b01509

TY - JOUR

T1 - Maximizing Ag Utilization in High-Rate CO2 Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode

AU - Wang, Riming

AU - Haspel, Henrik

AU - Pustovarenko, Alexey

AU - Dikhtiarenko, Alla

AU - Russkikh, Artem

AU - Shterk, Genrikh

AU - Osadchii, Dmitrii

AU - Ould-Chikh, Samy

AU - Ma, Ming

AU - Smith, Wilson A.

AU - Takanabe, Kazuhiro

AU - Kapteijn, Freek

AU - Gascon, Jorge

PY - 2019/8/9

Y1 - 2019/8/9

N2 - We report the preparation and electrocatalytic performance of silver-containing gas diffusion electrodes (GDEs) derived from a silver coordination polymer (Ag-CP). Layer-by-layer growth of the Ag-CP onto porous supports was applied to control Ag loading. Subsequent electro-decomposition of the Ag-CP resulted in highly selective and efficient CO2-to-CO GDEs in aqueous CO2 electroreduction. Afterward, the metal-organic framework (MOF)-mediated approach was transferred to a gas-fed flow electrolyzer for high current density tests. The in situ formed GDE, with a low silver loading of 0.2 mg cm-2, showed a peak performance of jCO ≈ 385 mA cm-2 at around -1.0 V vs RHE and stable operation with high FECO (>96%) at jTotal = 300 mA cm-2 over a 4 h run. These results demonstrate that the MOF-mediated approach offers a facile route for manufacturing uniformly dispersed Ag catalysts for CO2 electrochemical reduction by eliminating ill-defined deposition steps (drop-casting, etc.) while allowing control of the catalyst structure through self-assembly.

AB - We report the preparation and electrocatalytic performance of silver-containing gas diffusion electrodes (GDEs) derived from a silver coordination polymer (Ag-CP). Layer-by-layer growth of the Ag-CP onto porous supports was applied to control Ag loading. Subsequent electro-decomposition of the Ag-CP resulted in highly selective and efficient CO2-to-CO GDEs in aqueous CO2 electroreduction. Afterward, the metal-organic framework (MOF)-mediated approach was transferred to a gas-fed flow electrolyzer for high current density tests. The in situ formed GDE, with a low silver loading of 0.2 mg cm-2, showed a peak performance of jCO ≈ 385 mA cm-2 at around -1.0 V vs RHE and stable operation with high FECO (>96%) at jTotal = 300 mA cm-2 over a 4 h run. These results demonstrate that the MOF-mediated approach offers a facile route for manufacturing uniformly dispersed Ag catalysts for CO2 electrochemical reduction by eliminating ill-defined deposition steps (drop-casting, etc.) while allowing control of the catalyst structure through self-assembly.

UR - https://www.scopus.com/pages/publications/85070874854

U2 - 10.1021/acsenergylett.9b01509

DO - 10.1021/acsenergylett.9b01509

M3 - 文章

AN - SCOPUS:85070874854

SN - 2380-8195

VL - 4

SP - 2024

EP - 2031

JO - ACS Energy Letters

JF - ACS Energy Letters

IS - 8

ER -

Maximizing Ag Utilization in High-Rate CO2 Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode

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Maximizing Ag Utilization in High-Rate CO₂ Electrochemical Reduction with a Coordination Polymer-Mediated Gas Diffusion Electrode