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Insight into the Electrochemical Behaviors of <scp>NCM811</scp>|<scp>SiO‐Gr</scp> Pouch Battery through Thickness Variation

Xingqin Wang, Youzhi Song, Hao Cui, Jianhong Liu, Hua Huo, Li Wang, Yunzhi Gao, Xiangming He

2022Energy & environment materials16 citationsDOIOpen Access PDF

Abstract

LiNi 0.8 Co 0.1 Mn 0.1 O 2 (NCM811) | SiOx‐graphite (SiO‐Gr.) battery chemistry is of intensive attention because its achievable practical energy density is approaching impressively 300 Wh Kg −1 . However, it still suffers rapid capacity fades during repeated cycles, both chemical, electrochemical and mechanical irreversibility contribute. A comprehensive understanding behind the fading behavior of the cell chemistry is required before fully realize the benefits of this chemistry. Herein, the in‐situ thickness variation is introduced as a diagnostic technique and is performed on 5–55 Ah NCM811|SiO‐Gr cells. With the help of Li reference electrode and in‐situ X‐ray diffraction device, the correspondence between thickness variation and the electrode potential is carefully investigated. Firstly, the NCM811|SiO‐Gr cell is characterized with the maximum cell thickness at around 80% state‐of‐charge (SOC) in the discharge process, rather than at 100% SOC. Secondly, the electrochemical behaviors during rate charge/discharge are diagnosed, and a Li platting signal is resolved from thickness variation profile at 2C. This work confirms that the thickness monitoring is a nondestructive and informative complement to conventional diagnostic techniques for failure analysis of pouch cells.

Topics & Concepts

Battery (electricity)ElectrochemistryElectrodeMaterials scienceGraphiteChemical engineeringDiffractionAnalytical Chemistry (journal)Aggregate (composite)Composite materialChemistryPhysicsThermodynamicsPhysical chemistryChromatographyEngineeringOpticsPower (physics)Advancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies