Process-Structure-Formulation Interactions for enhanced sodium Ion Battery Development: A Review

Before the viability of a cell formulation can be assessed for implementation in commercial sodium ion batteries, processes applied in cell production should be validated and optimized. This review summarizes the steps performed in constructing sodium ion (Na-ion) cells at research scale, highlighting parameters and techniques that are likely to impact measured cycling performance. Consistent process-structure-performance links have been established for typical lithium-ion (Li-ion) cells, which can guide hypotheses to test in Na-ion cells. Liquid electrolyte viscosity, sequence of mixing electrode slurries, rate of drying electrodes and cycling characteristics of formation were found critical to the reported capacity of laboratory cells. Based on the observed importance of processing to battery performance outcomes, the current focus on novel materials in Na-ion research should be balanced with deeper investigation into mechanistic changes of cell components during and after production, to better inform future designs of these promising batteries.

Automated summary

Before assessing the feasibility of a cell formulation for commercial sodium ion batteries, the validity and optimization of cell production processes need to be confirmed. This review summarizes the steps involved in constructing sodium ion cells at a research scale, highlighting parameters and techniques that may impact measured cycling performance. The importance of processing on battery performance outcomes suggests the need for further investigation into mechanistic changes of cell components during and after production, in order to inform future designs of these promising batteries.