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"Powder flowability"

A Study on the Optimization of α-Al2O3 Powder Manufacturing for the Application of Separators for Lithium-Ion Secondary Batteries
Dong-myeong Moon, Da-eun Hyun, Ji-hui Oh, Jwa-bin Jeon, Yong-nam Kim, Kyoung-hoon Jeong, Jong-kun Lee, Sang-mo Koo, Dong-won Lee, Jong-min Oh
J Electr Electron Mater 2023;36(6):638-646.   Published online November 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.6.17
Recently, active research has been conducted to enhance the power characteristics and thermal stability of lithiumion batteries (LiBs) by modifying separators using a ceramic coating method. However, since the thermal properties and surface features of the separator vary depending on the characteristics of the ceramic powders applied to the separator, it is crucial to manufacture ceramic powders optimized for the separator’s performance. In this study, we evaluated the characteristics of three types of α-alumina (A-1, A-2, and A-3) produced with varying dispersant contents and milling times, in addition to commercial α-alumina (AES-11). Subsequently, the optimized powders (A-3) were coated onto the separator using an aqueous binder for comparison with the characteristics of an AES-11 coated separator and an uncoated PE separator. The A-3 coated separator improved electrolyte wettability with a low contact angle (44.69°) and increased puncture strength (538 gf). Furthermore, it exhibited excellent thermal stability, with a shrinkage value of 5.64% when exposed to 140℃ for 1 hour, compared to the AES- 11 coated separator (6.09%) and the bare PE separator (69.64%).
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