Li-Rich Layered/Spinel Heterostructured Special Morphology Cathode Material with High Rate Capability for Li-Ion Batteries

Lanhua Yi; Zhongshu Liu; Ruizhi Yu; Caixian Zhao; Hongfeng Peng; Meihong Liu; Bing Wu; Manfang Chen; Xianyou Wang

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Li-Rich Layered/Spinel Heterostructured Special Morphology Cathode Material with High Rate Capability for Li-Ion Batteries

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

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摘要

Li-rich material 0.4Li₂MnO₃·0.6LiNi_1/3Co_1/3Mn_1/3O₂ with a layered/spinel heterostructure is synthesized by a simple strategy. On the basis of structure and morphology analyses, it is revealed that the as-prepared Li-rich material possesses both porous micronano structure and integral layered-spinel heterostructure. Moreover, the obtained layered-spinel cathode material possesses prominent electrochemical characteristics, especially its rate capability. The initial discharge capacity of the as-prepared material is 269 mAh g–1 with a high Coulombic efficiency of 90.3%. The material delivers discharge capacities of 239 mAh g–1 at 0.5C, 195 mAh g–1 at 5C, and 175.8 mAh g–1 even at 10C. Also, the capacity retention of the cell is still as high as 80% at high current density (5C) after 200 cycles. The addition of spinel can inhibit the collapse of the material structure and voltage fading upon cycling. The 3D spinel Li₄Mn₅O₁₂ phase in the Li-rich compound could provide a fast Li-ion diffusion pathway and a porous micronano structure which are key parameters for the remarkable excellent electrochemical performance of the as-prepared cathode material.]]>

机译：<！图像/中/ SC-2017-029062_0010.gif“>富含材料0.4LI <亚> 2 Mno _{3 ·0.6lli _{1/3 co通过简单的策略合成_{1/3 Mn _{1/3 用分层/尖晶石异质结构合成。在结构和形态学分析的基础上，揭示了制备的锂富含材料具有多孔微胰岛结构和整体层状尖晶石异质结构。此外，所获得的层状尖晶石阴极材料具有突出的电化学特性，尤其是其速率能力。制备材料的初始放电容量为269mAhg -1 -1 ，高库仑效率为90.3％。该材料在0.5℃，195mAhg -1 / sop> -1 / sup> -1 / sup>在5℃下提供239mAh g -1 / sop>的放电容量，175.8mah g -1 即使在10C。而且，在200次循环后，电池的容量保持仍然高达80％（5c）。尖晶石的添加可以抑制材料结构的塌陷和循环时褪色。 3D尖晶石Li _{4 Mn _{5富富化合物中的3 / sum> O _{12 相位可以提供快速的锂离子扩散途径和多孔微量胰岛结构是作为制备的阴极材料的显着优异电化学性能的关键参数。]]>}}}}}}}

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来源
《ACS Sustainable Chemistry & Engineering》 |2017年第11期|共11页
作者
Lanhua Yi; Zhongshu Liu; Ruizhi Yu; Caixian Zhao; Hongfeng Peng; Meihong Liu; Bing Wu; Manfang Chen; Xianyou Wang;
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作者单位

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

College of Chemical Engineering Xiangtan University Xiangtan 411105 P. R. China;

Gold Shine Energy Material Co. Ltd. Changsha 410211 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

Key Laboratory of Environmentally Friendly Chemistry and Applications of Ministry of Education School of Chemistry Xiangtan University Xiangtan 411105 P. R. China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Cathode material; Electrochemical performance; Layered/spinel heterostructure; Lithium-ion batteries; Porous-rod-like micronano structure;

机译：阴极材料;电化学性能;层状/尖晶石异质结构;锂离子电池;多孔棒状微量茴香结构;

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专利

1. 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
2. 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
3. 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
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. Chemical Pre-intercalation Synthesis Approach for Novel Layered Cathode Materials for Li-ion and Beyond Li-ion Batteries [D] . Clites, Mallory. 2019

机译：用于锂离子和超离子电池的新型层状阴极材料的化学预嵌位合成方法
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

Li-Rich Layered/Spinel Heterostructured Special Morphology Cathode Material with High Rate Capability for Li-Ion Batteries

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