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Crack-free single-crystalline Co-free Ni-rich LiNi0.95Mn0.05O2 layered cathode

Lianshan Ni, Ruiting Guo, Susu Fang, Jun Chen, Jinqiang Gao, Yu Mei, Shu Zhang, Wentao Deng, Guoqiang Zou, Hongshuai Hou, Xiaobo Ji

2022eScience216 citationsDOIOpen Access PDF

Abstract

The rapid growth in global electric vehicles (EVs) sales has promoted the development of Co-free, Ni-rich layered cathodes for state-of-the-art high energy-density, inexpensive lithium-ion batteries (LIBs). However, progress in their commercial use has been seriously hampered by exasperating performance deterioration and safety concerns. Herein, a robust single-crystalline, Co-free, Ni-rich LiNi0.95Mn0.05O2 (SC-NM95) cathode is successfully designed using a molten salt-assisted method, and it exhibits better structural stability and cycling durability than those of polycrystalline LiNi0.95Mn0.05O2 (PC-NM95). Notably, the SC-NM95 cathode achieves a high discharge capacity of 218.2 mAh g−1, together with a high energy density of 837.3 ​Wh kg−1 ​at 0.1 C, mainly due to abundant Ni2+/Ni3+ redox. It also presents an outstanding capacity retention (84.4%) after 200 cycles at 1 ​C, because its integrated single-crystalline structure effectively inhibits particle microcracking and surface phase transformation. In contrast, the PC-NM95 cathode suffers from rapid capacity fading owing to the nucleation and propagation of intergranular microcracking during cycling, facilitating aggravated parasitic reactions and rock-salt phase accumulation. This work provides a fundamental strategy for designing high-performance single-crystalline, Co-free, Ni-rich cathode materials and also represents an important breakthrough in developing high-safe, low-cost, and high-energy LIBs.

Topics & Concepts

CathodeMaterials scienceNucleationCrystalliteDurabilityChemical engineeringPhase (matter)Lithium (medication)Intergranular corrosionMetallurgyComposite materialMicrostructureChemistryMedicineEndocrinologyOrganic chemistryEngineeringPhysical chemistryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication
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