Description
Data accompanying the paper "3D Nickel Electrodes for Hybrid Battery and Electrolysis Devices"
Objective of the paper is to demonstrate that 3D structured electrodes enable high current density (dis)charging of Ni-Fe battery-electrolyser electrodes. The data comprise:
- underlying data sets of the journal paper figures
- underlying data sets of SI figures
- code of model used in the paper (Python)
Highlights of the paper:
- 3D electrodes enable high current density (dis)charging of Ni-Fe battery-electrolyser electrodes
- Charge rates reached are as high as alkaline electrolyzer current densities
- Electrochemical modeling describes battery-electrolyzer charge utilization
- 3D structuring can be realized using scalable techniques
Objective of the paper is to demonstrate that 3D structured electrodes enable high current density (dis)charging of Ni-Fe battery-electrolyser electrodes. The data comprise:
- underlying data sets of the journal paper figures
- underlying data sets of SI figures
- code of model used in the paper (Python)
Highlights of the paper:
- 3D electrodes enable high current density (dis)charging of Ni-Fe battery-electrolyser electrodes
- Charge rates reached are as high as alkaline electrolyzer current densities
- Electrochemical modeling describes battery-electrolyzer charge utilization
- 3D structuring can be realized using scalable techniques
| Date made available | 8 Nov 2024 |
|---|---|
| Publisher | TU Delft - 4TU.ResearchData |
Research output
- 1 Article
-
3D nickel electrodes for hybrid battery and electrolysis devices
Möller-Gulland, R. & Mulder, F. M., 2024, In: Cell Reports Physical Science. 5, 11, 23 p., 102286.Research output: Contribution to journal › Article › Scientific › peer-review
Open AccessFile1 Link opens in a new tab Citation (Scopus)4 Downloads (Pure)
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