Capacity-Weighted Figures-of-Merit for Battery Transport Metrics

Abstract

New battery materials with improved transport are needed. Typical measurements yield widely varying voltage-dependent diffusivities and reporting practices are diverse. Some materials (e.g. first-order phase change) have most redox occur at a specific voltage and may be sufficiently represented by singular transport metrics. Many rapid intercalation materials, however, exhibit second-order phase transitions with redox over a broad voltage range. How should such cases be compared? The use of capacity-weighted average values is suggested where voltage-dependent metrics are consolidated into representative descriptors as figures-of-merit. Examples are elaborated where differential capacity (dQ/dV) is used to derive a weighting function to calculate a diffusivity figure-of-merit (DQav). Furthermore, it is shown that galvanostatic techniques can provide transport values with even capacity-weighting such that their mean value (DTav) is capacity-weighted. Though equivalent conceptually, the latter approach avoids derivative noise and subjective smoothing. Computational diffusion calculations can similarly include capacity-weighted figures-of-merit. Lastly, diffusivity uncertainty is last addressed which is dominated by surface area error due to the second-power dependence. Best-practices can reduce the diffusivity error from ~40% to ~2% using appropriate BET sorbents or SAXS thickness measurements. These perspectives improve the comparison of battery materials with a diffusivity figure-of-merit that supports performance-ranking with attention to uncertainty.

Supplementary files

Article information

Article type
Perspective
Submitted
26 avq 2024
Accepted
18 dek 2024
First published
18 dek 2024
This article is Open Access
Creative Commons BY license

J. Mater. Chem. A, 2025, Accepted Manuscript

Capacity-Weighted Figures-of-Merit for Battery Transport Metrics

C. Sturgill, C. Sutton, J. Schwenzel and M. Stefik, J. Mater. Chem. A, 2025, Accepted Manuscript , DOI: 10.1039/D4TA06041E

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