High rate capability caused by surface cubic spinels in Li-rich layer-structured cathodes for Li-ion batteries

Bohang Song; Hongwei Liu; Zongwen Liu; Pengfei Xiao; Man On Lai; Li Lu

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High rate capability caused by surface cubic spinels in Li-rich layer-structured cathodes for Li-ion batteries

机译：锂离子电池的富锂层状阴极中的表面立方尖晶石引起的高倍率能力

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Modified Li-rich layered cathode Li(Li_0.2Mn_0.54Ni_0.13Co_0.13)O₂ has been synthesized by a simple strategy of using surface treatment with various amounts (0–30?wt.%) of Super P (carbon black). Based on detailed characterizations from X-ray diffraction (XRD), high resolution transmission electron microscope (HRTEM), X-ray photoelectron spectroscopy (XPS) and electrochemical impedance spectroscopy (EIS), it is suggested that the phase transformation from Li₂MnO₃-type of structure to spinel-like phase take place at the surface regions of particles during post annealing process at 350°C, leading to increase in both first coulombic efficiency and rate capability, from 78% and 100?mAh·g?1 (charge capacity at 2500?mA·g?1) of the pristine material to 93.4% and 200?mAh·g?1. The evidences of spinel formation and the reasons for electrochemical enhancement are systematically investigated.

机译：改性富锂层状正极Li（Li _{0.2 Mn _{0.54 Ni _{0.13 Co _{0.13 ）O _{2 是通过一种简单的策略进行合成的，该策略是使用各种量（0–30％wt。％）的Super P（炭黑）进行表面处理。基于X射线衍射（XRD），高分辨率透射电子显微镜（HRTEM），X射线光电子能谱（XPS）和电化学阻抗能谱（EIS）的详细表征，建议Li _{的相变在350℃的后退火过程中，在颗粒的表面区域出现了2 MnO _{3 型结构，形成尖晶石状相，从而提高了第一库仑效率和速率容量，从原始材料的78％和100？mAh·g ？1 （充电容量为2500？mA·g ？1 ）到93.4％和200？mAh ·g ？1 。系统地研究了尖晶石形成的证据以及电化学增强的原因。}}}}}}}

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《Scientific reports.》 |2013年第1期|共页
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Bohang Song; Hongwei Liu; Zongwen Liu; Pengfei Xiao; Man On Lai; Li Lu;
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1. High rate capability caused by surface cubic spinels in Li-rich layer-structured cathodes for Li-ion batteries [J] . Bohang Song, Hongwei Liu, Zongwen Liu, Scientific reports. . 2013,第1期

机译：锂离子电池的富锂层状阴极中的表面立方尖晶石引起的高倍率能力
2. Li-Rich Layered/Spinel Heterostructured Special Morphology Cathode Material with High Rate Capability for Li-Ion Batteries [J] . Lanhua Yi, Zhongshu Liu, Ruizhi Yu, ACS Sustainable Chemistry & Engineering . 2017,第11期

机译：锂富含分层/尖晶石异质结构特殊形态阴极材料，具有锂离子电池的高速率能力
3. An Li-rich oxide cathode material with mosaic spinel grain and a surface coating for high performance Li-ion batteries [J] . Hui Liu, Chunyu Du, Geping Yin Journal of Materials Chemistry, A. Materials for energy and sustainability . 2014,第37期

机译：具有镶嵌尖晶石晶粒和表面涂层的富锂氧化物正极材料，用于高性能锂离子电池
4. Dependences of Discharge Capacity, Retention of Discharge Capacity, Average Discharge Voltage and Energy Density, and Rate Capability on the Composition of xLi_2MnO_3-yLiNi_(1/2)Mn_(1/2)O_2-(1-x-y)LiNi_(1/3)Co_(1/3)Mn_(1/3)O_2 Li-rich Solid-Solution Cathode Materials for Li-Ion Battery [C] . Takashi Tsuda, Hayato Kokubun, Yuki Asaoka, Meeting of the Electrochemical Society . 2017

机译：放电容量，放电容量的保留，平均放电电压和能量密度，以及XLI_2MNO_3-YLINI_（1/2）MN_（1/2）O_2-（1-XY）LINI_（1/3）的组成对速率的速率能力）CO_（1/3）MN_（1/3）O_2锂含量的锂固体溶液阴极材料用于锂离子电池
5. Li-Induced Oxygen Activation in Li-Rich Materials for Designing High Energy Li-Ion Battery Systems [D] . 李翔, /リショウ 2019

机译：富锂材料中的锂诱导氧活化，用于设计高能锂离子电池系统
6. High rate capability caused by surface cubic spinels in Li-rich layer-structured cathodes for Li-ion batteries [O] . Bohang Song, Hongwei Liu, Zongwen Liu, -1

机译：锂离子电池的富锂层状阴极中的表面立方尖晶石引起的高倍率能力
7. Solvothermal synthesis and properties of Layered/Spinel heterostructured Li-rich and Mn-based cathode materials of Li-ion batteries [O] . 邓亚平 2016

机译：锂离子电池层状/尖晶石异质结构富锂和锰基正极材料的溶剂热合成及性能

High rate capability caused by surface cubic spinels in Li-rich layer-structured cathodes for Li-ion batteries

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