2017
DOI: 10.1016/j.jpowsour.2016.12.070
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Microstructural degradation of silicon electrodes during lithiation observed via operando X-ray tomographic imaging

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Cited by 60 publications
(40 citation statements)
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“…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%
See 1 more Smart Citation
“…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%
“…I n recent years, the advancement of X-ray computed tomography (CT) capabilities have facilitated a broadening of our understanding of battery materials and devices, with studies spanning multiple length scales, from nanometre to millimetre, and multiple time scales from kilohertz to microhertz 1 . These studies have collectively provided insight into the relationship between electrode microstructure and performance [2][3][4] , battery architecture, safety [5][6][7][8] and new battery materials [9][10][11] . While the majority of these studies have utilised X-ray CT, there is growing interest in the application of neutron imaging for battery applications; the complementarities of X-ray and neutron imaging, which are sensitive to electron and nuclear density, respectively, provide significant opportunities for correlative studies.…”
mentioning
confidence: 99%
“…The current gravimetric capacity (amount of lithium that can be stored per mass of anodic material) of graphite anodes is around 372 mAh g −1 . New anode materials such as lithium titanate (LiTi 5 O 12 ), carbon nanotubes or Al, Sn and Si compounds are being studied for use as alternative anodes . The aforementioned materials would increase the value of the waste of LIBs, involving a significant growth of the concern about recycling processes.…”
Section: A New Challenge For Edr: Lithium Ion Battery Recyclingmentioning
confidence: 99%
“…New anode materials such as lithium titanate (LiTi 5 O 12 ), carbon nanotubes or Al, Sn and Si compounds are being studied for use as alternative anodes. [105][106][107] The aforementioned materials would increase the value of the waste of LIBs, involving a significant growth of the concern about recycling processes.…”
Section: Chemical Composition Of Lib Wastementioning
confidence: 99%