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Electrochemical Impedance Spectroscopy of Metal Oxide Electrodes for Energy Applications
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    Electrochemical Impedance Spectroscopy of Metal Oxide Electrodes for Energy Applications
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    • Alexandria R. C. Bredar
      Alexandria R. C. Bredar
      Department of Chemistry and Biochemistry, Auburn University, Auburn, Alabama 36849, United States
    • Amanda L. Chown
      Amanda L. Chown
      Department of Chemistry and Biochemistry, Auburn University, Auburn, Alabama 36849, United States
    • Andricus R. Burton
      Andricus R. Burton
      Department of Chemistry and Biochemistry, Auburn University, Auburn, Alabama 36849, United States
    • Byron H. Farnum*
      Byron H. Farnum
      Department of Chemistry and Biochemistry, Auburn University, Auburn, Alabama 36849, United States
      *E-mail: [email protected]
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    ACS Applied Energy Materials

    Cite this: ACS Appl. Energy Mater. 2020, 3, 1, 66–98
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    https://doi.org/10.1021/acsaem.9b01965
    Published January 3, 2020
    Copyright © 2020 American Chemical Society

    Abstract

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    Metal oxides have been of great importance to the development of energy conversion and storage technologies including heterojunction solar cells, Li-ion batteries, and electrocatalysts/photocatalysts for water splitting and CO2 reduction. The role of metal oxides in these devices has been diverse, from charge transport layers to catalytic surfaces to protective blocking layers. Understanding the fundamental structural and electronic properties of these materials will continue to allow for advancement in the field of renewable energy. Electrochemical impedance spectroscopy (EIS) is one of the most utilized methods to characterize these electrodes in the context of energy applications. The utility of EIS stems from its ability to differentiate multiple interfaces (i.e., solid/electrolyte, solid/solid) within devices on the basis of their frequency response to a modulated potential and the subsequent decoupling of resistive and capacitive circuit components. In this review, the fundamental theory of EIS is first described with a physical and mathematical basis, followed by a discussion of equivalent circuit modeling. The review then covers examples from the literature where EIS has been particularly important in the understanding of electronic properties related to metal oxide electrodes within energy conversion and storage devices. A specific focus is placed on metal oxides that are used as heterojunction solar cells, ion batteries, and photocatalysts/electrocatalysts. Common themes are discussed within each application such as the study of electron and hole diffusion in solar cells, the dependence of recombination reactions and catalysis on surface defect/trap states for solar cells and photocatalysts, and the formation of passivation layers at the solid electrolyte interface in Li-ion batteries.

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