2019
DOI: 10.1039/c8cp04763d
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Three-dimensional image based modelling of transport parameters in lithium–sulfur batteries

Abstract: A sulfur electrode was imaged with X-ray micro and nano computed tomography for the modelling of effective molecular diffusivity and electrical conductivity through flux based simulations.

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Cited by 30 publications
(33 citation statements)
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“…A key example of the use of three-phase mapping has been demonstrated by Usseglio-Viretta et al [70] who produced a comprehensive study comparing tortuosity-factor estimation methods for graphite and NMC electrodes. However, the applications of three-phase mapping and quantification are not limited to LIBs: Tan et al [71,72] assessed the effective molecular diffusivity of the pore phase and electrical conductivity of the conductive carbon and binder phase via three-phase segmentation in order to conduct simulations of a lithium-sulfur cell.…”
Section: X-ray Characterisation Of Libsmentioning
confidence: 99%
See 1 more Smart Citation
“…A key example of the use of three-phase mapping has been demonstrated by Usseglio-Viretta et al [70] who produced a comprehensive study comparing tortuosity-factor estimation methods for graphite and NMC electrodes. However, the applications of three-phase mapping and quantification are not limited to LIBs: Tan et al [71,72] assessed the effective molecular diffusivity of the pore phase and electrical conductivity of the conductive carbon and binder phase via three-phase segmentation in order to conduct simulations of a lithium-sulfur cell.…”
Section: X-ray Characterisation Of Libsmentioning
confidence: 99%
“…Image-based modelling can provide a powerful tool in the prediction and optimisation of LIBs [83]; as previously mentioned, models based on X-ray CT data may be employed to generate structures or evaluate local transport properties [70], allowing 3D or 4D distributions of local current or potential to be mapped [97], possibly even across multiple length scales [98], even to the extent of cell failure [95]. Nevertheless, imaged-based modelling such as this is not limited to LIB and has recently seen interest from other battery chemistries [71,99].…”
Section: Figurementioning
confidence: 99%
“…Advanced ex and in situ measurements have promoted fundamental understanding of the structural and morphological modifications along with the effects of metal oxide composition on the conversion reaction features . Among the various investigative approaches, three‐dimensional imaging at the micro‐ and nanoscale may actually shed light on the particle evolution throughout the lithium‐exchange process and reveal crucial morphological parameters for electrode modelling, such as the phase volume fraction and the particle size distribution . In particular, X‐ray nano‐computed tomography (CT) enables a detailed reconstruction of the spatial distribution of the various electrode components and provides useful qualitative compositional information associated with the attenuation of the incident beam .…”
Section: Introductionmentioning
confidence: 98%
“…[21,27,[30][31][32][33] Among the variousi nvestigative approaches, three-dimensional imaging at the micro-and nanoscale may actually shed light on the particle evolution throughout the lithium-exchange process and reveal crucial morphological parameters for electrode modelling, such as the phase volumef raction and the particle size distribution. [34][35][36] In particular, X-ray nano-computed tomography (CT) enablesadetailed reconstruction of the spatiald istribution of the various electrode components [37] and provides useful qualitative compositional information associated with the attenuation of the incident beam. [38] Insightsi nto the displacementp rocess may pave the way for improved performance by aiming at effective employment of metal oxides as anodes in efficient and stable full-cells, which is considered essential to demonstrate the applicability of this class of materials.…”
Section: Introductionmentioning
confidence: 99%
“…As the CBD has a very low x-ray cross section compared to the typical cathode active materials, it is difficult to resolve this phase with XCT. While recent studies that have attempted to resolve this phase by adding additives with high x-ray cross sections [69] or with ad-vanced x-ray techniques [70] show much promise, they are still insufficient for direct use in image-based simulations. Other approaches to image the binder suffer from small fields of view or are only 2D, limiting their direct use at the mesoscale [30,33,[71][72][73][74][75].…”
Section: Introductionmentioning
confidence: 99%