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W-Doped LiNi <sub>1/3</sub> Co <sub>1/3</sub> Mn <sub>1/3</sub> O <sub>2</sub> with Excellent High-Rate Performance Synthesized via Hydrothermal Lithiation

Pei-yao Li, Ying‐de Huang, Lin‐bo Tang, Han‐xin Wei, Hao Fu, Zhenjiang He, Junchao Zheng

2022Journal of The Electrochemical Society15 citationsDOI

Abstract

High energy consumption and excess lithium are required for the preparation of transition metal layered oxide cathodes through high-temperature solid-phase sintering. Exploring new low-cost preparation methods can raise the cost competitiveness of commercial lithium-ion batteries. Herein, nanoscale LiNi 1/3 Co 1/3 Mn 1/3 O 2 (NCM111) was prepared via a hydrothermal lithiation process from transition metal sulfates. The dissolution-recrystallization mechanism during the low-temperature hydrothermal process enables the formation of nanoparticles. The nanoscale particle size shortens the diffusion channel of lithium ions, which can significantly boost the rate-performance of NCM111. The high concentration of Li + in the solution hinders Ni 2+ from occupying the 3a site of Li + during the formation of the layered structure, inhibiting the cation mixing, and the unreacted lithium in the solution can be easily recycled. The conductivity of the material is improved by introducing the high valence ion W 6+ , while the strong W–O bond stabilizes the layered structure and further restrains cation mixing. The results show that the W-doped NCM111 has a specific capacity of 131.9 mAh g −1 at an ultra-high discharge rate of 20 C (3200 mA g −1 ).

Topics & Concepts

Hydrothermal circulationMaterials scienceDissolutionLithium (medication)SinteringChemical engineeringHydrothermal synthesisOxideDopingNanoparticleCathodeValence (chemistry)Transition metalMetalInorganic chemistryNanotechnologyChemistryMetallurgyPhysical chemistryEngineeringEndocrinologyOrganic chemistryMedicineCatalysisOptoelectronicsBiochemistryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication