In operando studies of rotating prismatic Li-ion batteries using monochromatic wide-angle neutron diffraction

•Method for collecting of high resolution/high quality neutron powder diffraction data from prismatic cells was proposed and evaluated.•In operando neutron diffraction study was performed on flat Li-ion cell at different SOCs with a good agreement to previous studies on 18650-type cell.•Experimental...

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Bibliographic Details
Published in:Journal of energy storage 2019-08, Vol.24, p.100772, Article 100772
Main Authors: Baran, Volodymyr, Mühlbauer, Martin J., Schulz, Michael, Pfanzelt, Josef, Senyshyn, Anatoliy
Format: Article
Language:English
Subjects:
Li-ion battery
Neutron diffraction
Prismatic cell
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Summary:•Method for collecting of high resolution/high quality neutron powder diffraction data from prismatic cells was proposed and evaluated.•In operando neutron diffraction study was performed on flat Li-ion cell at different SOCs with a good agreement to previous studies on 18650-type cell.•Experimental data at SOC = 0% and 100% obtained using “stepwise” rotation and permanent rotation were analysed using full-profile Rietveld refinements. An experimental method of collecting high-resolution neutron powder diffraction data in a wide angular range on permanently rotating prismatic Li-ion batteries cell, which allows to eliminate a need of complex absorption correction due to highly anisotropic attenuation paths for thermal neutrons in prismatic cells, is proposed. Neutron diffraction data, in quality enabling Rietveld refinement, was collected ex situ at discrete (predefined) cell states-of-charge (SOC = 100% and 0%). Besides this, an in operando neutron powder diffraction study on a permanently rotating prismatic cell is reported, where cell connection to potentiostat was supplied using slip ring electric contact. An excellent agreement between experimental data on prismatic and 18650-type Li-ion cells was noticed. The proposed methodology opens new experimental capabilities for in operando neutron powder diffraction studies on prismatic cells (either commercial or lab based) at different experimental conditions (state-of-charge, charging protocol, current rate, state-of-health, temperature and/or cell chemistry etc).
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2019.100772