Elucidating Nickel Oxide Reduction in a Ni-YSZ Solid Oxide Cell via in-situ X-ray Nano Holo-Tomography

Salvatore De Angelis; Julie  Villanova; Peter Stanley Jørgensen; Vincenzo Esposito; Jacob Ross Bowen

doi:10.1016/j.actamat.2024.119965

Elucidating Nickel Oxide Reduction in a Ni-YSZ Solid Oxide Cell via in-situ X-ray Nano Holo-Tomography

Salvatore De Angelis^*
, Julie Villanova
, Peter Stanley Jørgensen
, Vincenzo Esposito
, Jacob Ross Bowen

^*Corresponding author for this work

The European Synchrotron
Xnovo Technology ApS

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

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Abstract

Reducing nickel oxide in solid oxide cell (SOC) electrodes is a critical step during the early stages of cell operation. It is considered crucial in shaping the final microstructure of the fuel electrode. In this work, we investigate the NiO reduction process in a state-of-the-art Solid Oxide Cell (SOC) using in-situ X-ray nano-holo-tomography. Results show a fast reaction kinetics and a reaction front from the outer to the inner regions of the sample. NiO reduction is complete in the first few seconds and the metallic Ni particles present a sponge-like structure, with many nanocrystallites and internal nano porosity. After reduction, the Ni network undergoes coarsening, increasing its particle size. Based on the acquired data, we propose a new chain of reaction mechanisms for forming the Ni nanocrystallites observed after reduction.

Original language	English
Article number	119965
Journal	Acta Materialia
Volume	273
Number of pages	8
ISSN	1359-6454
DOIs	https://doi.org/10.1016/j.actamat.2024.119965
Publication status	Published - 2024

Keywords

X-ray holo tomography
Solid oxide cells
Nickel oxide reduction
In-situ tomography
Fuel electrode

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@article{6b03388aeff74b6b942d64776b81c0d7,

title = "Elucidating Nickel Oxide Reduction in a Ni-YSZ Solid Oxide Cell via in-situ X-ray Nano Holo-Tomography",

abstract = "Reducing nickel oxide in solid oxide cell (SOC) electrodes is a critical step during the early stages of cell operation. It is considered crucial in shaping the final microstructure of the fuel electrode. In this work, we investigate the NiO reduction process in a state-of-the-art Solid Oxide Cell (SOC) using in-situ X-ray nano-holo-tomography. Results show a fast reaction kinetics and a reaction front from the outer to the inner regions of the sample. NiO reduction is complete in the first few seconds and the metallic Ni particles present a sponge-like structure, with many nanocrystallites and internal nano porosity. After reduction, the Ni network undergoes coarsening, increasing its particle size. Based on the acquired data, we propose a new chain of reaction mechanisms for forming the Ni nanocrystallites observed after reduction. ",

keywords = "X-ray holo tomography, Solid oxide cells, Nickel oxide reduction, In-situ tomography, Fuel electrode",

author = "\{De Angelis\}, Salvatore and Julie Villanova and J{\o}rgensen, \{Peter Stanley\} and Vincenzo Esposito and Bowen, \{Jacob Ross\}",

year = "2024",

doi = "10.1016/j.actamat.2024.119965",

language = "English",

volume = "273",

journal = "Acta Materialia",

issn = "1359-6454",

publisher = "Acta Materialia Inc",

}

TY - JOUR

T1 - Elucidating Nickel Oxide Reduction in a Ni-YSZ Solid Oxide Cell via in-situ X-ray Nano Holo-Tomography

AU - De Angelis, Salvatore

AU - Villanova, Julie

AU - Jørgensen, Peter Stanley

AU - Esposito, Vincenzo

AU - Bowen, Jacob Ross

PY - 2024

Y1 - 2024

N2 - Reducing nickel oxide in solid oxide cell (SOC) electrodes is a critical step during the early stages of cell operation. It is considered crucial in shaping the final microstructure of the fuel electrode. In this work, we investigate the NiO reduction process in a state-of-the-art Solid Oxide Cell (SOC) using in-situ X-ray nano-holo-tomography. Results show a fast reaction kinetics and a reaction front from the outer to the inner regions of the sample. NiO reduction is complete in the first few seconds and the metallic Ni particles present a sponge-like structure, with many nanocrystallites and internal nano porosity. After reduction, the Ni network undergoes coarsening, increasing its particle size. Based on the acquired data, we propose a new chain of reaction mechanisms for forming the Ni nanocrystallites observed after reduction.

AB - Reducing nickel oxide in solid oxide cell (SOC) electrodes is a critical step during the early stages of cell operation. It is considered crucial in shaping the final microstructure of the fuel electrode. In this work, we investigate the NiO reduction process in a state-of-the-art Solid Oxide Cell (SOC) using in-situ X-ray nano-holo-tomography. Results show a fast reaction kinetics and a reaction front from the outer to the inner regions of the sample. NiO reduction is complete in the first few seconds and the metallic Ni particles present a sponge-like structure, with many nanocrystallites and internal nano porosity. After reduction, the Ni network undergoes coarsening, increasing its particle size. Based on the acquired data, we propose a new chain of reaction mechanisms for forming the Ni nanocrystallites observed after reduction.

KW - X-ray holo tomography

KW - Solid oxide cells

KW - Nickel oxide reduction

KW - In-situ tomography

KW - Fuel electrode

U2 - 10.1016/j.actamat.2024.119965

DO - 10.1016/j.actamat.2024.119965

M3 - Journal article

SN - 1359-6454

VL - 273

JO - Acta Materialia

JF - Acta Materialia

M1 - 119965

ER -

Elucidating Nickel Oxide Reduction in a Ni-YSZ Solid Oxide Cell via in-situ X-ray Nano Holo-Tomography

Abstract

Keywords

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