Structural evolution of mesoporous graphene/LiNi_1/3Co_1/3Mn_1/3O₂ composite cathode for Li-ion battery

Wen-Jie Liu^1,2，Xian-Zhong Sun^1,2，Xiong Zhang^1,2，Chen Li¹，Kai Wang^1,2，Wen Wen³，Yan-Wei Ma^1,2

1. Institute of Electrical Engineering,Chinese Academy of Sciences2. University of Chinese Academy of Sciences3. Shanghai Institute of Applied Physics,Chinese Academy of Sciences

摘 要：Layered LiMO₂（M=Ni,Co,and Mn） is a type of promising cathode materials for high energy density and high work voltage lithium-ion batteries.However,the poor rate performance and low power density hinder its further applications.The capacity fade is related to the structural transformation in the layered LiMO₂.In this work,the structural changes of bi-material cathode composed of mesoporous graphene and layered LiNi_1/3Co_1/3Mn_1/3O₂（NCM） were studied via in situ X-ray diffraction（XRD）.During different C-rate charge-discharge test at the voltage range of 2.5-4.1 V,the composite cathode of NCM-graphene（NCM-G） reveals better rate performances than pure NCM cathode.The NCM-G composite electrode displays a higher rate capability of 76.7 mAh·g^-1 at 5 C rate,compared to the pure NCM cathode of 69.8 mAh·g^-1discharge capacity.The in situ XRD results indicate that a reversible phase transition from hexagonal H1 to hexagonal H2 occurs in layered NCM material during 1 C chargedischarge process.With the current increasing to 2 C/5 C,the structure of layered NCM material for both electrodes reveals few changes during charge and discharge processes,which indicates the less utilization of NCM component at high C-rates.Hence,the improved rate performance for bi-material electrode is attributed to the highly conductive mesoporous graphene and the synergistic effect of mesoporous graphene and NCM material.

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