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Correlating activities and defects in (photo)electrocatalysts using in-situ multi-modal microscopic imaging

Author

Listed:
  • Camilo A. Mesa

    (Imperial College London
    Institute of Advanced Materials (INAM) Universitat Jaume I
    Grupo de Investigación y Desarrollo en Ciencia Tecnología e Innovación - BioGRID
    UAB Campus)

  • Michael Sachs

    (Imperial College London
    SLAC National Accelerator Laboratory
    Stanford University)

  • Ernest Pastor

    (Institute of Advanced Materials (INAM) Universitat Jaume I
    IPR (Institut de Physique de Rennes) - UMR 6251)

  • Nicolas Gauriot

    (J.J. Thomson Avenue)

  • Alice J. Merryweather

    (J.J. Thomson Avenue)

  • Miguel A. Gomez-Gonzalez

    (Harwell Science and Innovation Campus)

  • Konstantin Ignatyev

    (Harwell Science and Innovation Campus)

  • Sixto Giménez

    (Institute of Advanced Materials (INAM) Universitat Jaume I)

  • Akshay Rao

    (J.J. Thomson Avenue)

  • James R. Durrant

    (Imperial College London
    Swansea University)

  • Raj Pandya

    (J.J. Thomson Avenue
    Collège de France
    University of Warwick)

Abstract

Photo(electro)catalysts use sunlight to drive chemical reactions such as water splitting. A major factor limiting photocatalyst development is physicochemical heterogeneity which leads to spatially dependent reactivity. To link structure and function in such systems, simultaneous probing of the electrochemical environment at microscopic length scales and a broad range of timescales (ns to s) is required. Here, we address this challenge by developing and applying in-situ (optical) microscopies to map and correlate local electrochemical activity, with hole lifetimes, oxygen vacancy concentrations and photoelectrode crystal structure. Using this multi-modal approach, we study prototypical hematite (α-Fe2O3) photoelectrodes. We demonstrate that regions of α-Fe2O3, adjacent to microstructural cracks have a better photoelectrochemical response and reduced back electron recombination due to an optimal oxygen vacancy concentration, with the film thickness and extended light exposure also influencing local activity. Our work highlights the importance of microscopic mapping to understand activity, in even seemingly homogeneous photoelectrodes.

Suggested Citation

  • Camilo A. Mesa & Michael Sachs & Ernest Pastor & Nicolas Gauriot & Alice J. Merryweather & Miguel A. Gomez-Gonzalez & Konstantin Ignatyev & Sixto Giménez & Akshay Rao & James R. Durrant & Raj Pandya, 2024. "Correlating activities and defects in (photo)electrocatalysts using in-situ multi-modal microscopic imaging," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47870-9
    DOI: 10.1038/s41467-024-47870-9
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