摘要
To alleviate the poor cycling stability and sluggish kinetics commonly observed with the lithium-ion batteries (LIBs) assembled with Ni-rich layered cathode, natural graphite (NG) anode, and polymeric separators; in this work, a spatial atomic layer deposition (ALD) technique was developed to uniformly coat TiO2 nanolayer on the Ni-rich cathode, NG anode, and the separator. To assess the electrochemical performance of nano-coated electrodes, a pouch cell was assembled with the nominal capacity of ∼2200 mAh. The ALD-treated pouch cells were cycled extensively at 25 and 55°C. Even after high-temperature cycling, the ALD-treated cells did not demonstrate any appreciable volumetric expansion. Analyzing the microstructure of the ALD-coated electrodes revealed that the ALD coating facilitates the formation of a thin and robust solid-electrolyte interfacial layer on the anode and mitigates the metal leaching from the cathode electrode, resulting in high-rate capability and exceptional cyclic stability. The spatial ALD coating technique demonstrated in this work enables a continuous fabrication of TiO2-coated electrodes with a high production rate (1.2‒2.4 m min−1).
原文 | 英語 |
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文章編號 | 140605 |
期刊 | Electrochimica Acta |
卷 | 423 |
DOIs | |
出版狀態 | 已出版 - 10 08 2022 |
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