In Situ/Operando Characterization Techniques of Electrochemical CO2Reduction

Bjorn Hasa; Yaran Zhao; Feng Jiao

doi:10.1146/annurev-chembioeng-101121-071735

In Situ/Operando Characterization Techniques of Electrochemical CO₂Reduction

Bjorn Hasa, Yaran Zhao, Feng Jiao

Research output: Contribution to journal › Review article › peer-review

39 Citations (Scopus)

Abstract

Electrocatalytic conversion of carbon dioxide to valuable chemicals and fuels driven by renewable energy plays a crucial role in achieving net-zero carbon emissions. Understanding the structure-Activity relationship and the reaction mechanism is significant for tuning electrocatalyst selectivity. Therefore, characterizing catalyst dynamic evolution and reaction intermediates under reaction conditions is necessary but still challenging. We first summarize the most recent progress in mechanistic understanding of heterogeneous CO₂/CO reduction using in situ/operando techniques, including surface-enhanced vibrational spectroscopies, X-ray-And electron-based techniques, and mass spectroscopy, along with discussing remaining limitations. We then offer insights and perspectives to accelerate the future development of in situ/operando techniques.

Original language	English
Pages (from-to)	165-185
Number of pages	21
Journal	Annual Review of Chemical and Biomolecular Engineering
Volume	14
DOIs	https://doi.org/10.1146/annurev-chembioeng-101121-071735
Publication status	Published - 8 Mar 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 Annual Reviews Inc.. All rights reserved.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 13 Climate Action

Keywords

advanced characterization techniques
carbon dioxide electroreduction
catalyst
electrolyte
mechanistic insights
reaction intermediates

Access to Document

10.1146/annurev-chembioeng-101121-071735

Cite this

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abstract = "Electrocatalytic conversion of carbon dioxide to valuable chemicals and fuels driven by renewable energy plays a crucial role in achieving net-zero carbon emissions. Understanding the structure-Activity relationship and the reaction mechanism is significant for tuning electrocatalyst selectivity. Therefore, characterizing catalyst dynamic evolution and reaction intermediates under reaction conditions is necessary but still challenging. We first summarize the most recent progress in mechanistic understanding of heterogeneous CO2/CO reduction using in situ/operando techniques, including surface-enhanced vibrational spectroscopies, X-ray-And electron-based techniques, and mass spectroscopy, along with discussing remaining limitations. We then offer insights and perspectives to accelerate the future development of in situ/operando techniques.",

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AU - Hasa, Bjorn

AU - Zhao, Yaran

AU - Jiao, Feng

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N2 - Electrocatalytic conversion of carbon dioxide to valuable chemicals and fuels driven by renewable energy plays a crucial role in achieving net-zero carbon emissions. Understanding the structure-Activity relationship and the reaction mechanism is significant for tuning electrocatalyst selectivity. Therefore, characterizing catalyst dynamic evolution and reaction intermediates under reaction conditions is necessary but still challenging. We first summarize the most recent progress in mechanistic understanding of heterogeneous CO2/CO reduction using in situ/operando techniques, including surface-enhanced vibrational spectroscopies, X-ray-And electron-based techniques, and mass spectroscopy, along with discussing remaining limitations. We then offer insights and perspectives to accelerate the future development of in situ/operando techniques.

AB - Electrocatalytic conversion of carbon dioxide to valuable chemicals and fuels driven by renewable energy plays a crucial role in achieving net-zero carbon emissions. Understanding the structure-Activity relationship and the reaction mechanism is significant for tuning electrocatalyst selectivity. Therefore, characterizing catalyst dynamic evolution and reaction intermediates under reaction conditions is necessary but still challenging. We first summarize the most recent progress in mechanistic understanding of heterogeneous CO2/CO reduction using in situ/operando techniques, including surface-enhanced vibrational spectroscopies, X-ray-And electron-based techniques, and mass spectroscopy, along with discussing remaining limitations. We then offer insights and perspectives to accelerate the future development of in situ/operando techniques.

KW - advanced characterization techniques

KW - carbon dioxide electroreduction

KW - catalyst

KW - electrolyte

KW - mechanistic insights

KW - reaction intermediates

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DO - 10.1146/annurev-chembioeng-101121-071735

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SN - 1947-5438

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