Boron doped Ni-rich LiNi0.85Co0.10Mn0.05O2 cathode materials studied by structural analysis, solid state NMR, computational modeling, and electrochemical performance

材料科学 掺杂剂 兴奋剂 密度泛函理论 微观结构 电化学 阴极 化学工程 表面能 锂(药物) 纳米技术 分析化学(期刊) 化学物理 物理化学 电极 复合材料 计算化学 有机化学 光电子学 化学 内分泌学 工程类 医学
作者
S. Francis Amalraj,Ravikumar Raman,Arup Chakraborty,Nicole Leifer,Raju Nanda,Sooraj Kunnikuruvan,Tatyana Kravchuk,Judith Grinblat,Vladimir Ezersky,Rong Sun,Francis Leonard Deepak,Christoph Erk,Xiaohan Wu,Sandipan Maiti,Hadar Sclar,Gil Goobes,Dan Thomas Major,M. Talianker,Boris Markovsky,Doron Aurbach
出处
期刊:Energy Storage Materials [Elsevier BV]
卷期号:42: 594-607 被引量:86
标识
DOI:10.1016/j.ensm.2021.08.005
摘要

This work is part of ongoing and systematic investigations by our groups on the synthesis, electrochemical behavior, structural investigations, and computational modeling of the Ni-rich materials Li[NixCoyMnz]O2 (x+y+z=1; x≥0.8) for advanced lithium-ion batteries. This study focuses on the LiNi0.85Co0.10Mn0.05O2 (NCM85) material and its improvement upon doping with B3+ cations. The data demonstrate the substantial improvement of the doped electrodes in terms of cycling performance, lower voltage hysteresis and reduced self-discharge upon high temperature storage. The electronic structure of the undoped and B-doped material was modelled using density functional theory (DFT), which identified interstitial positions as the preferential location of the dopant. DFT models were also used to shed light on the influence of boron on surface segregation, surface stability, and oxygen binding energy in NCM85 material. Experimental evidence supports the suggestion that the boron segregates at the surface, effectively reducing the surface energy and increasing the oxygen binding energy, and possibly, as a result, inhibiting oxygen release. Additionally, the presence of borate species near the surface can reduce the nucleophilicity of surface oxygens. Cycling of the Li-cells did not cause noticeable changes in the microstructure of the B-doped materials, whereas significant microstructural changes, like a propagating network of cracks, was observed across all grains in the cycled undoped NCM85 cathodes. Analysis by high-resolution microscopy and 6Li and 11B solid-state nuclear magnetic resonance (ss NMR) allowed for the correlation of capacity fade and degradation of the different NCM85 materials with their structural characteristics.
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