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Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales

Petz, Dominik / Mühlbauer, Martin J. / Baran, Volodymyr / Schökel, Alexander / Kochetov, Vladislav / Hofmann, Michael / Dyadkin, Vadim / Staron, Peter / Vaughan, Gavin / Lienert, Ulrich / ... [more]

The distribution of lithium inside electrodes of a commercial Li-ion battery of 18650-type with LiFePO$_{4}$ cathode and graphite anode is investigated on different length scales using neutron diffraction, X-ray (synchrotron-based) diffraction and X-ray computed tomography. Evolution of 2D (in-plane) lithium distribution in lithiated graphite is monitored during charge/discharge using millimeter-sized spatial resolution. Micrometer-sized details of cell organization and lithiation of both the positive and negative electrodes are obtained from diffraction-based tomography applying synchrotron radiation. In-situ lithiation of the cathode over its thickness and development of the lithium concentration front during cell charge/discharge is traced by diffraction-based profiling with a micrometer-sized synchrotron beam in a single-layer electrochemical cell.

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Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales

Petz, Dominik / Mühlbauer, Martin J. / Baran, Volodymyr / Schökel, Alexander / Kochetov, Vladislav / Hofmann, Michael / Dyadkin, Vadim / Staron, Peter / Vaughan, Gavin / Lienert, Ulrich / ... [more]

The distribution of lithium inside electrodes of a commercial Li-ion battery of 18650-type with LiFePO$_{4}$ cathode and graphite anode is investigated on different length scales using neutron diffraction, X-ray (synchrotron-based) diffraction and X-ray computed tomography. Evolution of 2D (in-plane) lithium distribution in lithiated graphite is monitored during charge/discharge using millimeter-sized spatial resolution. Micrometer-sized details of cell organization and lithiation of both the positive and negative electrodes are obtained from diffraction-based tomography applying synchrotron radiation. In-situ lithiation of the cathode over its thickness and development of the lithium concentration front during cell charge/discharge is traced by diffraction-based profiling with a micrometer-sized synchrotron beam in a single-layer electrochemical cell.

Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales

Petz, Dominik / Mühlbauer, Martin J. / Baran, Volodymyr / Schökel, Alexander / Kochetov, Vladislav / Hofmann, Michael / Dyadkin, Vadim / Staron, Peter / Vaughan, Gavin / Lienert, Ulrich / ... [more]

The distribution of lithium inside electrodes of a commercial Li-ion battery of 18650-type with LiFePO$_{4}$ cathode and graphite anode is investigated on different length scales using neutron diffraction, X-ray (synchrotron-based) diffraction and X-ray computed tomography. Evolution of 2D (in-plane) lithium distribution in lithiated graphite is monitored during charge/discharge using millimeter-sized spatial resolution. Micrometer-sized details of cell organization and lithiation of both the positive and negative electrodes are obtained from diffraction-based tomography applying synchrotron radiation. In-situ lithiation of the cathode over its thickness and development of the lithium concentration front during cell charge/discharge is traced by diffraction-based profiling with a micrometer-sized synchrotron beam in a single-layer electrochemical cell.

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Title:

Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales

Contributors:

Petz, Dominik (author) / Mühlbauer, Martin J. (author) / Baran, Volodymyr (author) / Schökel, Alexander (author) / Kochetov, Vladislav (author) / Hofmann, Michael (author) / Dyadkin, Vadim (author) / Staron, Peter (author) / Vaughan, Gavin (author) / Lienert, Ulrich (author)

Publication date:

2021-11-11

Remarks:

Energy storage materials, 41, 546–553 ; ISSN: 2405-8297

DOI:

https://doi.org/10.5445/IR/1000139945

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

In operando neutron diffraction , Graphite anode , Lithium homogeneity , Spatially-resolved diffraction , X-ray diffraction tomography , Depth lithium profile , ddc:600 , Technology , info:eu-repo/classification/ddc/600

Classification:

DDC: 600 / 620 / 624

Licence:

https://creativecommons.org/licenses/by-nc-nd/4.0/deed.de

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