Understanding mechanical failure behaviours and protocol optimization for fast charging applications in Co-free Ni-based cathodes for lithium-ion batteries

阴极 材料科学 锂(药物) 离子 氧化物 协议(科学) 纳米技术 电气工程 化学 冶金 工程类 医学 内分泌学 病理 有机化学 替代医学
作者
Jaesub Kwon,Jaehyun Kim,Jong‐Heon Lim,Kyoung Eun Lee,Kang Sun,Youngsun Kong,Donghyun Kim,Kyu‐Su Kim,Gogwon Choe,Sang‐Mun Jung,Docheon Ahn,Yoon‐Uk Heo,Janghyuk Moon,Kyu‐Young Park,Yong‐Tae Kim
出处
期刊:Materials horizons [Royal Society of Chemistry]
卷期号:12 (4): 1133-1143 被引量:7
标识
DOI:10.1039/d4mh01248h
摘要

Currently, it is a significant challenge to achieve long-term cyclability and fast chargeability in lithium-ion batteries, especially for the Ni-based oxide cathode, due to severe chemo-mechanical degradation. Despite its importance, the fast charging long-term cycling behaviour is not well understood. Therefore, we comprehensively evaluate the feasibility of fast charging applications for Co-free layered oxide cathodes, with a focus on the extractable capacity and cyclability. The cathodes with a Ni content of over 80% attain 80% of their nominal capacity, along with superior cyclability under fast charging due to the suppression of the following two mechanical failure modes: (i) Li-ion concentration shock fracture (CSF) and (ii) H2-H3 phase shock fracture (HSF). In particular, CSF produces stronger stress than HSF and causes severe crack penetration in mid-Ni cathodes under fast charging. Meanwhile, HSF induces mild internal stress, but prolonged exposure accelerates mechanical degradation. To maximize the fast charging application of high-Ni cathodes, we evaluated a 5C constant current constant voltage protocol to deliver 180 mAh g-1 in 35 min, improving the cycle life by up to 89% over 100 cycles with LiNi0.90Mn0.10O2. This study provides insights into the fast charging applications of high-Ni cathodes, thereby advancing the understanding of their behaviour and optimization.
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