Tuning the activity and selectivity of electroreduction of CO2 to synthesis gas using bimetallic catalysts

Ji Hoon Lee; Shyam Kattel; Zhao Jiang; Zhenhua Xie; Siyu Yao; Brian M. Tackett; Wenqian Xu; Nebojsa S. Marinkovic; Jingguang G. Chen

doi:10.1038/s41467-019-11352-0

Tuning the activity and selectivity of electroreduction of CO₂ to synthesis gas using bimetallic catalysts

Ji Hoon Lee
, Shyam Kattel
, Zhao Jiang
, Zhenhua Xie
, Siyu Yao
, Brian M. Tackett
, Wenqian Xu
, Nebojsa S. Marinkovic
, Jingguang G. Chen

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

217 Scopus citations

Abstract

The electrochemical carbon dioxide reduction reaction to syngas with controlled CO/H₂ ratios has been studied on Pd-based bimetallic hydrides using a combination of in situ characterization and density functional theory calculations. When compared with pure Pd hydride, the bimetallic Pd hydride formation occurs at more negative potentials for Pd-Ag, Pd-Cu, and Pd-Ni. Theoretical calculations show that the choice of the second metal has a more significant effect on the adsorption strength of *H than *HOCO, with the free energies between these two key intermediates (i.e., ΔG(*H)–ΔG(*HOCO)) correlating well with the carbon dioxide reduction reaction activity and selectivity observed in the experiments, and thus can be used as a descriptor to search for other bimetallic catalysts. The results also demonstrate the possibility of alloying Pd with non-precious transition metals to promote the electrochemical conversion of CO₂ to syngas.

Original language	English
Article number	3724
Journal	Nature Communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-11352-0
State	Published - 1 Dec 2019

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title = "Tuning the activity and selectivity of electroreduction of CO2 to synthesis gas using bimetallic catalysts",

abstract = "The electrochemical carbon dioxide reduction reaction to syngas with controlled CO/H2 ratios has been studied on Pd-based bimetallic hydrides using a combination of in situ characterization and density functional theory calculations. When compared with pure Pd hydride, the bimetallic Pd hydride formation occurs at more negative potentials for Pd-Ag, Pd-Cu, and Pd-Ni. Theoretical calculations show that the choice of the second metal has a more significant effect on the adsorption strength of *H than *HOCO, with the free energies between these two key intermediates (i.e., ΔG(*H)–ΔG(*HOCO)) correlating well with the carbon dioxide reduction reaction activity and selectivity observed in the experiments, and thus can be used as a descriptor to search for other bimetallic catalysts. The results also demonstrate the possibility of alloying Pd with non-precious transition metals to promote the electrochemical conversion of CO2 to syngas.",

author = "Lee, \{Ji Hoon\} and Shyam Kattel and Zhao Jiang and Zhenhua Xie and Siyu Yao and Tackett, \{Brian M.\} and Wenqian Xu and Marinkovic, \{Nebojsa S.\} and Chen, \{Jingguang G.\}",

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doi = "10.1038/s41467-019-11352-0",

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AU - Lee, Ji Hoon

AU - Kattel, Shyam

AU - Jiang, Zhao

AU - Xie, Zhenhua

AU - Yao, Siyu

AU - Tackett, Brian M.

AU - Xu, Wenqian

AU - Marinkovic, Nebojsa S.

AU - Chen, Jingguang G.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - The electrochemical carbon dioxide reduction reaction to syngas with controlled CO/H2 ratios has been studied on Pd-based bimetallic hydrides using a combination of in situ characterization and density functional theory calculations. When compared with pure Pd hydride, the bimetallic Pd hydride formation occurs at more negative potentials for Pd-Ag, Pd-Cu, and Pd-Ni. Theoretical calculations show that the choice of the second metal has a more significant effect on the adsorption strength of *H than *HOCO, with the free energies between these two key intermediates (i.e., ΔG(*H)–ΔG(*HOCO)) correlating well with the carbon dioxide reduction reaction activity and selectivity observed in the experiments, and thus can be used as a descriptor to search for other bimetallic catalysts. The results also demonstrate the possibility of alloying Pd with non-precious transition metals to promote the electrochemical conversion of CO2 to syngas.

AB - The electrochemical carbon dioxide reduction reaction to syngas with controlled CO/H2 ratios has been studied on Pd-based bimetallic hydrides using a combination of in situ characterization and density functional theory calculations. When compared with pure Pd hydride, the bimetallic Pd hydride formation occurs at more negative potentials for Pd-Ag, Pd-Cu, and Pd-Ni. Theoretical calculations show that the choice of the second metal has a more significant effect on the adsorption strength of *H than *HOCO, with the free energies between these two key intermediates (i.e., ΔG(*H)–ΔG(*HOCO)) correlating well with the carbon dioxide reduction reaction activity and selectivity observed in the experiments, and thus can be used as a descriptor to search for other bimetallic catalysts. The results also demonstrate the possibility of alloying Pd with non-precious transition metals to promote the electrochemical conversion of CO2 to syngas.

UR - https://www.scopus.com/pages/publications/85070807366

U2 - 10.1038/s41467-019-11352-0

DO - 10.1038/s41467-019-11352-0

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AN - SCOPUS:85070807366

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VL - 10

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3724

ER -

Tuning the activity and selectivity of electroreduction of CO₂ to synthesis gas using bimetallic catalysts

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