2023
DOI: 10.1002/batt.202200562
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Modeling of Magnesium Intercalation into Chevrel Phase Mo6S8: Report on Improved Cell Design

Abstract: A good understanding of the limiting processes in rechargeable magnesium batteries is key to develop novel high-capacity/ high-voltage cathode materials. Thereby, the performance of magnesium-ion batteries can strongly depend on the morphology of the intercalation cathode. Moreover, high mass loadings are essential for commercialization. In this work the influence of different mass loadings are studied in addition to the impact of the particle size distribution of the active material. Therefore, a detailed con… Show more

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Cited by 3 publications
(4 citation statements)
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“…[41] For example, should the C-rate be sufficiently high, smaller particles could experience self-accelerated delithiation from increasing lithium diffusivity well before larger particles in the size distribution yet are exposed to coulometric conditions, which drives undesired states of charge and accelerated degradation; [42] however the nature of this phenomenon is subject to active study. [30,43] Wessel van den Bergh is a post-doctoral researcher at the Battery and Electrochemistry Laboratory (BELLA) at the Karlsruhe Institute of Technology (KIT). His research interests are focused on the use of controlled design methodologies to study the relationship between material features and electrochemical behavior for energy-storage applications.…”
Section: Discussionmentioning
confidence: 99%
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“…[41] For example, should the C-rate be sufficiently high, smaller particles could experience self-accelerated delithiation from increasing lithium diffusivity well before larger particles in the size distribution yet are exposed to coulometric conditions, which drives undesired states of charge and accelerated degradation; [42] however the nature of this phenomenon is subject to active study. [30,43] Wessel van den Bergh is a post-doctoral researcher at the Battery and Electrochemistry Laboratory (BELLA) at the Karlsruhe Institute of Technology (KIT). His research interests are focused on the use of controlled design methodologies to study the relationship between material features and electrochemical behavior for energy-storage applications.…”
Section: Discussionmentioning
confidence: 99%
“…While not an issue that arises from path length, the distribution of path lengths that is experimentally observed to broaden with increased particle size [33,40] can be a cause of issues in relation to autocatalytic delithiation (see Figure 1). [41] For example, should the C‐rate be sufficiently high, smaller particles could experience self‐accelerated delithiation from increasing lithium diffusivity well before larger particles in the size distribution yet are exposed to coulometric conditions, which drives undesired states of charge and accelerated degradation; [42] however the nature of this phenomenon is subject to active study [30,43] …”
Section: Discussionmentioning
confidence: 99%
“…to be limited by the particle size of the Chevrel phase material with particles smaller than ≈0.5 µm being crucial to avoid transport limitations for a wide range of practical current densities. [ 185 ] Another interesting field for the CP is the usage of dual ion systems. This was investigated by Li et al., proving that the diffusion of divalent Mg ions is significantly facilitated by using a Li and Mg dual‐ion system as the activation energy is remarkably reduced specifically by the concerted interactions of preceding Li ions and following Mg ions.…”
Section: Materials Classesmentioning
confidence: 99%
“…Usually the efficiency of the solid state system is limited by the reachable capacity, but was found by Drews et al to be limited by the particle size of the Chevrel phase material with particles smaller than ≈0.5 μm being crucial to avoid transport limitations for a wide range of practical current densities. [185] Another interesting field for the CP is the usage of dual ion systems. This was investigated by Li et al, proving that the diffusion of divalent Mg ions is significantly facilitated by using a Li and Mg dual-ion system as the activation Figure 14.…”
Section: Chevrel Phasementioning
confidence: 99%