@misc{petz_lithium_distribution_2021, author={Petz, D.,Mühlbauer, M.J.,Baran, V.,Schökel, A.,Kochetov, V.,Hofmann, M.,Dyadkin, V.,Staron, P.,Vaughan, G.,Lienert, U.,Müller-Buschbaum, P.,Senyshyn, A.}, title={Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales}, year={2021}, howpublished = {journal article}, doi = {https://doi.org/10.1016/j.ensm.2021.06.028}, abstract = {The distribution of lithium inside electrodes of a commercial Li-ion battery of 18650-type with LiFePO4 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.}, note = {Online available at: \url{https://doi.org/10.1016/j.ensm.2021.06.028} (DOI). Petz, D.; Mühlbauer, M.; Baran, V.; Schökel, A.; Kochetov, V.; Hofmann, M.; Dyadkin, V.; Staron, P.; Vaughan, G.; Lienert, U.; Müller-Buschbaum, P.; Senyshyn, A.: Lithium distribution and transfer in high-power 18650-type Li-ion cells at multiple length scales. Energy Storage Materials. 2021. vol. 41, 546-553. DOI: 10.1016/j.ensm.2021.06.028}}