Influence of precursor morphology and cathode processing on performance and cycle life of sodium-zinc chloride (Na-ZnCl₂) battery cells
Open access
Datum
2024-01Typ
- Journal Article
ETH Bibliographie
yes
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Abstract
Replacing nickel by cheap and abundant zinc may enable high-temperature sodium-nickel chloride (Na-NiCl2) batteries to become an economically viable and environmentally sustainable option for large-scale energy storage for stationary applications. However, changing the active cathode metal significantly affects the cathode microstructure, the electrochemical reaction mechanisms, the stability of cell components, and the specific cell energy. In this study, we investigate the influence of cathode microstructure on energy efficiency and cycle life of sodium-zinc chloride (Na-ZnCl₂) cells operated at 300 °C. We correlate the dis-/charge cycling performance of Na-ZnCl₂ cells with the ternary ZnCl₂-NaCl-AlCl₃ phase diagram, and identify mass transport through the secondary NaAlCl4 electrolyte as an important contribution to the cell resistance. These insights enable the design of tailored cathode microstructures, which we apply to cells with cathode granules and cathode pellets at an areal capacity of 50 mAh/cm². With cathode pellets, we demonstrate >200 cycles at C/5 (10 mA/cm²), transferring a total capacity of 9 Ah/cm² at >83% energy efficiency. We identify coarsening of zinc particles in the cathode microstructure as a major cause of performance degradation in terms of a reduction in energy efficiency. Our results set a basis to further enhance Na-ZnCl₂ cells, e.g., by the use of suitable additives or structural elements to stabilize the cathode microstructure. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000646567Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
Energy Storage MaterialsBand
Seiten / Artikelnummer
Verlag
ElsevierThema
High-temperature ZEBRA battery; Molten-salt battery; Zinc battery; Alkali metal anode; Stationary energy storageETH Bibliographie
yes
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