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Lithium-ion batteries - current state of the art and anticipated developments
Armand, M., Axmann, P., Bresser, D., Copley, M., Edström, K., Ekberg, C., … Zhang, H. (2020). Lithium-ion batteries - current state of the art and anticipated developments. Journal of Power Sources, 479, 228708 (26 pp.). https://doi.org/10.1016/j.jpowsour.2020.228708
Insights into the charge storage mechanism of Li<sub>3</sub>VO<sub>4</sub> anode materials for Li-ion batteries
Asakura, R., Bolli, C., Novák, P., & Robert, R. (2020). Insights into the charge storage mechanism of Li3VO4 anode materials for Li-ion batteries. ChemElectroChem, 7(9), 2033-2041. https://doi.org/10.1002/celc.202000161
Coating of Li<sub>1+x</sub>[Ni<sub>0.85</sub>Co<sub>0.10</sub>Mn<sub>0.05</sub>]<sub>1-x</sub>O<sub>2 </sub> cathode active material with gaseous BF<sub>3</sub>
Eisele, L., Skrotzki, J., Schneider, M., Bolli, C., Erk, C., Ludwig, T., … Krossing, I. (2020). Coating of Li1+x[Ni0.85Co0.10Mn0.05]1-xO2  cathode active material with gaseous BF3. Journal of the Electrochemical Society, 167(12), 120505 (12 pp.). https://doi.org/10.1149/1945-7111/aba8b8
Engineering of Sn and pre-lithiated Sn as negative electrode materials coupled to garnet Ta-LLZO solid electrolyte for all-solid‐state Li batteries
Ferraresi, G., Uhlenbruck, S., Tsai, C. L., Novák, P., & Villevieille, C. (2020). Engineering of Sn and pre-lithiated Sn as negative electrode materials coupled to garnet Ta-LLZO solid electrolyte for all-solid‐state Li batteries. Batteries and Supercaps, 3(6), 557-565. https://doi.org/10.1002/batt.201900173
Influence of water contamination on the SEI formation in Li-ion cells: an operando EQCM-D study
Kitz, P. G., Novák, P., & Berg, E. J. (2020). Influence of water contamination on the SEI formation in Li-ion cells: an operando EQCM-D study. ACS Applied Materials and Interfaces, 12(13), 15934-15942. https://doi.org/10.1021/acsami.0c01642
Influence of Na/Mn arrangements and P2/P'2 phase ratio on the electrochemical performance of Na<sub><em>x</em></sub>MnO<sub>2</sub> cathodes for sodium-ion batteries
Kulka, A., Marino, C., Walczak, K., Borca, C., Bolli, C., Novák, P., & Villevieille, C. (2020). Influence of Na/Mn arrangements and P2/P'2 phase ratio on the electrochemical performance of NaxMnO2 cathodes for sodium-ion batteries. Journal of Materials Chemistry A, 8(12), 6022-6033. https://doi.org/10.1039/C9TA12176E
<em>Post mortem</em> and<em> operando </em>XPEEM: a surface-sensitive tool for studying single particles in Li-Ion battery composite electrodes
Mirolo, M., Leanza, D., Höltschi, L., Jordy, C., Pelé, V., Novák, P., … Vaz, C. A. F. (2020). Post mortem and operando XPEEM: a surface-sensitive tool for studying single particles in Li-Ion battery composite electrodes. Analytical Chemistry, 92(4), 3023-3031. https://doi.org/10.1021/acs.analchem.9b04124
Cr-doped Li-rich nickel cobalt manganese oxide as a positive electrode material in Li-ion batteries to enhance cycling stability
Sallard, S., Billaud, J., Sheptyakov, D., Novák, P., & Villevieille, C. (2020). Cr-doped Li-rich nickel cobalt manganese oxide as a positive electrode material in Li-ion batteries to enhance cycling stability. ACS Applied Energy Materials, 3(9), 8646-8657. https://doi.org/10.1021/acsaem.0c01235
Insights into the chemical and electronic interface evolution of Li<sub>4</sub>Ti<sub>5</sub>O<sub>12</sub> cycled in Li<sub>2</sub>S-P<sub>2</sub>S<sub>5</sub> enabled by <em>o
Wu, X., Villevieille, C., Novák, P., & El Kazzi, M. (2020). Insights into the chemical and electronic interface evolution of Li4Ti5O12 cycled in Li2S-P2S5 enabled by operando X-ray photoelectron spectroscopy. Journal of Materials Chemistry A, 8(10), 5138-5146. https://doi.org/10.1039/C9TA14147B