Data of Physical and Electrochemical Characteristics of Calendered NMC622 Electrodes and Lithium-ion Cells at Pilot-Plant Scale Battery Manufacturing

Published: 24 July 2023| Version 1 | DOI: 10.17632/wwhm2frfmy.1
Contributors:
, Marc Hidalgo, Geanina Apachitei, Daniela Dogaru, Mike Lain, Mark Copley, James Marco

Description

Data of Physical and Electrochemical Characteristics of Calendered NMC622 Electrodes and Lithium-ion Cells at Pilot-Plant Scale Battery Manufacturing Co-Submission of same title Paper to Data in Brief Journal. Data For the research papers of: Hidalgo, M.F., Apachitei, G., Dogaru, D., Faraji Niri, M., Lain, M., Copley, M. and Marco, J., (2023) Design of Experiments for Optimizing the Calendering Process in Li-Ion Battery Manufacturing. Journal of Power Sources 573: 233091. https://doi.org/10.1016/j.jpowsour.2023.233091 Faraji Niri, M., Apachitei, G., Lain, M., Copley, M. and Marco, J. (2022), The Impact of Calendering Process Variables on the Impedance and Capacity Fade of Lithium-Ion Cells: An Explainable Machine Learning Approach. Energy Technol., 10: 2200893. https://doi.org/10.1002/ente.202200893

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Institutions

University of Warwick

Categories

Battery Material, Electrode, Manufacturing, Lithium Battery, Electrochemical Device, Pilot Plant

Funding

Faraday Institution

FIRG015

Licence