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Effect of Cationic Uniformity in Precursors on Li/Ni Mixing of Ni-Rich Layered Cathodes

Jiaxiang Cui, Xiaokai Ding, Dong Luo, Huixian Xie, Zuhao Zhang, Boyang Zhang, Fulin Tan, Chenyu Liu, Zhan Lin

2021Energy & Fuels47 citationsDOI

Abstract

Ni-rich layered oxides are promising cathodes to satisfy the long driving range of electric vehicles. However, Li/Ni mixing becomes a critical issue, which affects nearly all of the aspects of electrochemical performance of Ni-rich layered cathodes, such as cycling stability, rate capability, discharge capacity, and thermal stability. Herein, we investigate the effect of cationic uniformity in the precursors on Li/Ni mixing of Ni-rich layered cathodes. The cationic uniformity in precursors is regulated by the sol–gel and solvothermal method. All cations in the precursors obtained by the sol–gel method mix uniformly at a molecular scale, while the solvothermal method with a postaddition of Li salts causes a heterogeneous mixture between Li and transition-metal ions. Refined XRD and TEM results demonstrate that the NCM811 sample synthesized by the solvothermal method shows a higher Li/Ni mixing. This is because the inhomogeneous distribution of cations leads to local Li-poor regions, in which some Ni2+ ions are produced to keep charge neutrality, resulting in a serious Li/Ni mixing. Part of Ni ions in the Li layer suppresses the H2–H3 transition while it delivers a low capacity for increased electrode resistance. Therefore, advanced Ni-rich layered cathodes of the next-generation high-energy Li-ion batteries should simultaneously possess low Li/Ni mixing and reversible H2–H3 transition.

Topics & Concepts

Cationic polymerizationCathodeMaterials scienceElectrochemistryMixing (physics)Thermal stabilityTransition metalIonChemical engineeringNickelSolvothermal synthesisElectrodeInorganic chemistryMetallurgyChemistryPhysical chemistryCatalysisOrganic chemistryQuantum mechanicsEngineeringPhysicsPolymer chemistryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication
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