Published February 10, 2026
| Version v1
Dataset
Open
Raw data for the article "A single reaction-based model describes the stepped polarization curves of oxygen evolution recorded on rotating disk electrodes from mildly alkaline solutions"
Authors/Creators
- Hideg, Ádám (Data collector)1
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Kovács, Noémi
(Contact person)1
- Fekete, Éva (Data collector)1
- Ujvári, Mária (Data collector)1
- Szakály, Zsolt (Data collector)1
- Tavo, Romann (Data collector)2
- Grozovski, Vitali (Data collector)2
- Gálvez Vázquez, Liliana (Data collector)3
- Moreno-García, Pavel (Data collector)3
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Broekmann, Peter
(Data collector)3
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Vesztergom, Soma
(Project leader)1
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1.
Eötvös Loránd University
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2.
University of Tartu
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3.
University of Bern
Description
This is a dataset uploaded to Zenodo at https://doi.org/10.5281/zenodo.18601278 The dataset contains raw measurement data that served as a basis for the paper titled "A single reaction-based model describes the stepped polarization curves of oxygen evolution recorded on rotating disk electrodes from mildly alkaline solutions", published in Journal of Catalysis, https://doi.org/10.1016/j.jcat.2026.116974
The file OER_fitter.nb contains the fitting algorithm developed in Wolfram Mathematica 13.2. See comments in this file on how to use the algorithm.
The folder "src" contains measurement data stored as .tsv (tab-separated values) files, stored in a folder structure that contains information on the bulk pH (first level) and on the electrode material (second level). Apart the above, the .tsv file names also contain the applied rotation rate (rpm) value. The fitting algorithm exports fitted curves in ASCII-coded files (.dat), confidence intervals of the fitted parameters (.par), as well as an overview of the fitting in the form of an image (.jpg).
Files
readme.txt
Files
(4.6 MB)
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md5:b38535a9c6a032f756e7fdc19ce34ffb
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4.6 MB | Preview Download |
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md5:253d58c656b05fe9d3a82ff752e05388
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Additional details
Related works
- Is supplement to
- Journal article: 10.1016/j.jcat.2026.116974 (DOI)
Funding
- Hungarian Academy of Sciences
- Momentum Programme LP2022–18/2022
- National Research, Development and Innovation Office
- The Positive Side of Things FK135375
- Swiss National Science Foundation
- NCCR Catalysis (phase I) 180544
- Swiss National Science Foundation
- NCCR Catalysis (phase II) 225147