Files

1.pdf
  • Open Access
  • Adobe PDF
  • 1.79 MB

Details

Authors
Show more
Abstract
Calcium metal batteries (CMBs) have emerged as a promising alternative to lithium(Li)-based technologies due to calcium's (Ca) low reduction potential, high volumetric capacity, and abundance. However, challenges such as poor Ca2+ transport across passivation layers and limited electrolyte compatibility hinder practical implementation. Here, we report a fluorine-free electrolyte formulation based on calcium bis(methanesulfonimide) (Ca(MSI)2) in dimethylacetamide (DMAc). This system offers a safer, more sustainable, and environmentally benign alternative to conventional fluorinated electrolytes. Comparative physicochemical and electrochemical evaluations with the benchmark Ca(TFSI)2/DMAc electrolyte reveal that Ca(MSI)2 enables stable calcium plating/stripping over 1600 hours with lower overpotential and improved rate performance. In fact, spectroscopic analyses confirm the formation of a more uniform, fluorine-free interphase that supports better Ca2+ transport throughout the passivation layer. These findings highlight the potential of fluorine-free salts for enabling reversible room temperature calcium metal cycling and advance the development of safer, high-performance multivalent batteries.
Affiliations

Citations

Kachmar, A., Markowski, R., Purkait, T., Darsi Rambabu, Apostol, P., Tie, D., Heyns, R., Fransaer, J., Binnemans, K., Ponrouch, A., & Vlad, A. (2025). A fluorine-free electrolyte for calcium metal batteries. EES Batteries. Published. https://doi.org/10.1039/d5eb00162e (Original work published 2025)