Synthesis, structure and electrochemical performance of Eldfellite, <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" altimg="si1.svg"><mml:mrow><mml:mtext>NaFe</mml:mtext><mml:msub><mml:mrow><mml:mrow><mml:mo stretchy="true">(</mml:mo><mml:mrow><mml:msub><mml:mtext>SO</mml:mtext><mml:mn>4</mml:mn></mml:msub></mml:mrow><mml:mo stretchy="true">)</mml:mo></mml:mrow></mml:mrow><mml:mn>2</mml:mn></mml:msub></mml:mrow></mml:math>, doped with <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" altimg

Trussov, Ivan; Kokhmetova, Saule; Driscoll, Laura; Smith, Ronald I.; Berry, Frank J.; Marco, José F.; Galeyeva, Alina; Kurbatov, Andrey; Slater, Peter R.

doi:10.1016/j.jssc.2020.121395

Cited by 9 publications

(1 citation statement)

References 36 publications

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“…Other values of the coefficients found in the literature: 5.53•10 −21 m 2 s −1 (EIS), 29 1.4•10 −17 m 2 s −1 (CV), 29 2.5•10 −12 m 2 s −1 (MD calculations). 37 consider the process to be potentiostatic, where the formal overvoltage will also include the drop in the charge transfer voltage through the intercalated phase.…”

Section: Methodsmentioning

confidence: 64%

Simulation of Intercalation Processes in Poorly Conductive Materials

Zhigalenok

Kokhmetova²,

Malchik³

et al. 2022

ECS J. Solid State Sci. Technol.

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To determine the impact of the electrode composite parameters of metal-ion intercalation into host materials with poor conductivity, the processes were simulated with varying possible values of parameters. A physical model is proposed for the intercalation into an active material particle that has point contacts with an electronic conductor, considering the change in phase conductivity during intercalation. The basis of the model is the processes of electron migration through the phase of the poorly conductive material to its interface with the electrolyte, intercalation of cations from the electrolyte into the cathode material, formation of intercalated phase, and its subsequent diffusive propagation into the material bulk. The finite element method implemented in COMSOL Multiphysics software was used for numerical simulation. The effect of electrical conductivity, kinetic parameters at the interfaces, mass transfer of intercalated atoms in the host material, and the number of electronic contacts with cathode particle were simulated. The strong dependence of the kinetics of the de/intercalation process on the number of electronic contacts on the particle is discovered. It is shown that starting from certain values of the conductivity of the intercalation material, the reaction can be described by the equipotential surface approximation.

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Section: Methodsmentioning

confidence: 64%

Simulation of Intercalation Processes in Poorly Conductive Materials

Zhigalenok

Kokhmetova²,

Malchik³

et al. 2022

ECS J. Solid State Sci. Technol.

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Iron‐Based Sulfate for Sodium‐Ion Batteries: Past, Present, and Future

Liu,

Wang,

Wang

et al. 2024

Energy Tech

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Sodium‐ion batteries (SIBs) are crucial energy equipment that sustain low cost and better environmental benefit. Nevertheless, the practical energy density of SIBs is limited by cathode material. Over last decades, the iron‐based sulfate (IBS) has been extensively studied owing to its numerous advantages, including a large theoretical specific energy (over 100 Wh kg−1), high working potential (above 3.4 V), low cost, good structural stability, and environmental friendliness. Nevertheless, the application of IBS in SIBs is limited by its unsuitable electrolyte and low electronic/ionic conductivity. This review summarizes recently developed results on IBS materials for SIBs, ranging from the phase diagram–composition structure–electrochemical performance to modification research. A generalized summary of the future prospects of IBS‐based materials is also provided, with the hope of inspiring further advances in their application in SIBs.

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