Multi-spectroscopic study of electrochemically-formed oxide-derived gold electrodes

Sara Boscolo Bibi; Ahmed M. El-Zohry; Bernadette Davies; Vladimir Grigorev; Christopher M. Goodwin; Patrick Lömker; Alexander Holm; Harri Ali-Löytty; Fernando Garcia-Martinez; Christoph Schlueter; Markus Soldemo; Sergey Koroidov; Tony Hansson

doi:10.1039/d3cp04009g

Multi-spectroscopic study of electrochemically-formed oxide-derived gold electrodes

Sara Boscolo Bibi
, Ahmed M. El-Zohry^*
, Bernadette Davies
, Vladimir Grigorev
, Christopher M. Goodwin
, Patrick Lömker
, Alexander Holm
, Harri Ali-Löytty
, Fernando Garcia-Martinez
, Christoph Schlueter
, Markus Soldemo
, Sergey Koroidov^*
, Tony Hansson^*

^*Corresponding author for this work

Physics

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

6 Citations (Scopus)

13 Downloads (Pure)

Abstract

Oxide-derived metals are produced by reducing an oxide precursor. These materials, including gold, have shown improved catalytic performance over many native metals. The origin of this improvement for gold is not yet understood. In this study, operando non-resonant sum frequency generation (SFG) and ex situ high-pressure X-ray photoelectron spectroscopy (HP-XPS) have been employed to investigate electrochemically-formed oxide-derived gold (OD-Au) from polycrystalline gold surfaces. A range of different oxidizing conditions were used to form OD-Au in acidic aqueous medium (H₃PO₄, pH = 1). Our electrochemical data after OD-Au is generated suggest that the surface is metallic gold, however SFG signal variations indicate the presence of subsurface gold oxide remnants between the metallic gold surface layer and bulk gold. The HP-XPS results suggest that this subsurface gold oxide could be in the form of Au₂O₃ or Au(OH)₃. Furthermore, the SFG measurements show that with reducing electrochemical treatments the original gold metallic state can be restored, meaning the subsurface gold oxide is released. This work demonstrates that remnants of gold oxide persist beneath the topmost gold layer when the OD-Au is created, potentially facilitating the understanding of the improved catalytic properties of OD-Au.

Original language	English
Journal	Physical Chemistry Chemical Physics
Issue number	3
Early online date	12 Dec 2023
DOIs	https://doi.org/10.1039/d3cp04009g
Publication status	Published - 2024
Publication type	A1 Journal article-refereed

Funding

This research was supported by the Knut and Alice Wallenberg Foundation under Grant No. 2016.0042, the Swedish Research Council (2019-05114) and WISE-ap1 provided to Dr Sergey Koroidov, and by the Academy of Finland Flagship Programme, Photonics Research and Innovation (PREIN) (decision number 320165) and by the Jane & Aatos Erkko Foundation (project “Solar Fuels Synthesis”) provided to Dr Harri Ali-Löytty. The authors wish to thank Dr Taras Golod for preparing the gold electrodes, and Dr Matthias Hudl Waltin and Dr Henrik Öström for helping with the laser maintenance and support at the laser lab at AlbaNova University Center (Stockholm, Sweden). The authors also acknowledge DESY (Hamburg, Germany), a member of the Helmholtz Association HGF, for the provision of experimental facilities. Parts of this research were carried out at PETRA III using beamline P22 and we would like to thank Ilja Schostak for assistance. Beamtime was allocated for proposal I-20221301EC.

Funders	Funder number
Academy of Finland	320165
Jane ja Aatos Erkon Säätiö
Knut och Alice Wallenbergs Stiftelse	2016.0042
Vetenskapsrådet	2019-05114

Publication forum classification

Publication forum level 3

ASJC Scopus subject areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1039/d3cp04009gLicence: CC BY-NC

d3cp04009gFinal published version, 1.6 MBLicence: CC BY-NC

https://urn.fi/URN:NBN:fi:tuni-202401151445Licence: CC BY-NC

Cite this

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title = "Multi-spectroscopic study of electrochemically-formed oxide-derived gold electrodes",

abstract = "Oxide-derived metals are produced by reducing an oxide precursor. These materials, including gold, have shown improved catalytic performance over many native metals. The origin of this improvement for gold is not yet understood. In this study, operando non-resonant sum frequency generation (SFG) and ex situ high-pressure X-ray photoelectron spectroscopy (HP-XPS) have been employed to investigate electrochemically-formed oxide-derived gold (OD-Au) from polycrystalline gold surfaces. A range of different oxidizing conditions were used to form OD-Au in acidic aqueous medium (H3PO4, pH = 1). Our electrochemical data after OD-Au is generated suggest that the surface is metallic gold, however SFG signal variations indicate the presence of subsurface gold oxide remnants between the metallic gold surface layer and bulk gold. The HP-XPS results suggest that this subsurface gold oxide could be in the form of Au2O3 or Au(OH)3. Furthermore, the SFG measurements show that with reducing electrochemical treatments the original gold metallic state can be restored, meaning the subsurface gold oxide is released. This work demonstrates that remnants of gold oxide persist beneath the topmost gold layer when the OD-Au is created, potentially facilitating the understanding of the improved catalytic properties of OD-Au.",

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T1 - Multi-spectroscopic study of electrochemically-formed oxide-derived gold electrodes

AU - Bibi, Sara Boscolo

AU - El-Zohry, Ahmed M.

AU - Davies, Bernadette

AU - Grigorev, Vladimir

AU - Goodwin, Christopher M.

AU - Lömker, Patrick

AU - Holm, Alexander

AU - Ali-Löytty, Harri

AU - Garcia-Martinez, Fernando

AU - Schlueter, Christoph

AU - Soldemo, Markus

AU - Koroidov, Sergey

AU - Hansson, Tony

PY - 2024

Y1 - 2024

N2 - Oxide-derived metals are produced by reducing an oxide precursor. These materials, including gold, have shown improved catalytic performance over many native metals. The origin of this improvement for gold is not yet understood. In this study, operando non-resonant sum frequency generation (SFG) and ex situ high-pressure X-ray photoelectron spectroscopy (HP-XPS) have been employed to investigate electrochemically-formed oxide-derived gold (OD-Au) from polycrystalline gold surfaces. A range of different oxidizing conditions were used to form OD-Au in acidic aqueous medium (H3PO4, pH = 1). Our electrochemical data after OD-Au is generated suggest that the surface is metallic gold, however SFG signal variations indicate the presence of subsurface gold oxide remnants between the metallic gold surface layer and bulk gold. The HP-XPS results suggest that this subsurface gold oxide could be in the form of Au2O3 or Au(OH)3. Furthermore, the SFG measurements show that with reducing electrochemical treatments the original gold metallic state can be restored, meaning the subsurface gold oxide is released. This work demonstrates that remnants of gold oxide persist beneath the topmost gold layer when the OD-Au is created, potentially facilitating the understanding of the improved catalytic properties of OD-Au.

AB - Oxide-derived metals are produced by reducing an oxide precursor. These materials, including gold, have shown improved catalytic performance over many native metals. The origin of this improvement for gold is not yet understood. In this study, operando non-resonant sum frequency generation (SFG) and ex situ high-pressure X-ray photoelectron spectroscopy (HP-XPS) have been employed to investigate electrochemically-formed oxide-derived gold (OD-Au) from polycrystalline gold surfaces. A range of different oxidizing conditions were used to form OD-Au in acidic aqueous medium (H3PO4, pH = 1). Our electrochemical data after OD-Au is generated suggest that the surface is metallic gold, however SFG signal variations indicate the presence of subsurface gold oxide remnants between the metallic gold surface layer and bulk gold. The HP-XPS results suggest that this subsurface gold oxide could be in the form of Au2O3 or Au(OH)3. Furthermore, the SFG measurements show that with reducing electrochemical treatments the original gold metallic state can be restored, meaning the subsurface gold oxide is released. This work demonstrates that remnants of gold oxide persist beneath the topmost gold layer when the OD-Au is created, potentially facilitating the understanding of the improved catalytic properties of OD-Au.

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DO - 10.1039/d3cp04009g

M3 - Article

AN - SCOPUS:85181438734

SN - 1463-9076

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 3

ER -

Multi-spectroscopic study of electrochemically-formed oxide-derived gold electrodes

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