A time and energy conserving solution combustion synthesis of nano Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2 cathode material and its performance in Li-ion batteries

K. R. Prakasha; A. S. Prakash

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A time and energy conserving solution combustion synthesis of nano Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2 cathode material and its performance in Li-ion batteries

机译：纳米Li_（1.2）Ni_（0.13）Mn_（0.54）CO_（0.13）O 2阴极材料及其在锂离子电池中的时间和节能溶液燃烧合成及其在锂离子电池中的性能

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In search of an economic and energy conservingmethod for the synthesis of lithiumrich cathodematerials, an effective, quick and simple solution combustion method has been adopted for the synthesis of nano- sized Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2, which is today's most praised positive electrode material for lithium ion batteries. This energy conservative route facilitates homogeneous atomic-level mixing of the precursors resulting in a high quality product. In a short duration of time, nanoscale, phase-pure Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2 can be produced which is converted to an electro active high performing cathode material on calcination for less than 2 h at 850 ° C. The synthesized lithium-rich phase delivers a reversible capacity of 260 mA h g~(-1) with superior cycling stability and exhibits good rate performance.

机译：寻找经济和节能用于合成锂锂的阴管，采用有效，快速，简单的溶液燃烧方法，用于合成纳米型Li_（1.2）Ni_（0.13）MN_（0.54）CO_（0.13） O2，这是当今最称赞的锂离子电池的正极材料。这种能量保守途径有助于前体的均匀原子水平混合导致高质量的产品。在短时间内，可以生产纳米级，相纯Li_（1.2）Ni_（0.54）MN_（0.54）CO_（0.13）O2，其转换为煅烧上的电气活性高电平的阴极材料少于2小时在850℃下，合成的富含锂相的可逆容量为260 mA Hg〜（-1），具有优异的循环稳定性，并且表现出良好的性能。

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《RSC Advances》 |2015年第114期|共7页
作者
K. R. Prakasha; A. S. Prakash;
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CSIR - Network Institutes of Solar Energy (CSIR - NISE) CSIR Central Electrochemical Research Institute-Chennai Unit CSIR Madras Complex Taramani Chennai 600113 India.;

CSIR - Network Institutes of Solar Energy (CSIR - NISE) CSIR Central Electrochemical Research Institute-Chennai Unit CSIR Madras Complex Taramani Chennai 600113 India.;

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1. A time and energy conserving solution combustion synthesis of nano Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2 cathode material and its performance in Li-ion batteries [J] . K. R. Prakasha, A. S. Prakash RSC Advances . 2015,第114期

机译：纳米Li_（1.2）Ni_（0.13）Mn_（0.54）CO_（0.13）O 2阴极材料及其在锂离子电池中的时间和节能溶液燃烧合成及其在锂离子电池中的性能
2. CaF_2-coated Li_(1.2)Mn_(0.54)Ni_(0.13)Co_(0.13)O_2 as cathode materials for Li-ion batteries [J] . Xiaoyu Liu, Jali Liu, Tao Huang, Electrochimica Acta . 2013,第Null期

机译：CaF_2包覆的Li_（1.2）Mn_（0.54）Ni_（0.13）Co_（0.13）O_2作为锂离子电池的正极材料
3. Synthesis and electrochemical performance of cathode material Li_(1.2)Co_(0.13)Ni_(0.13)Mn_(0.54)O_2 from spent lithium-ion batteries [J] . Li Li, Xiaoxiao Zhang, Renjie Chen, Journal of power sources . 2014,第mara1期

机译：废锂离子电池正极材料Li_（1.2）Co_（0.13）Ni_（0.13）Mn_（0.54）O_2的合成及电化学性能
4. Synthesis and Performance Evaluation of SiO_2 Coated Li-Rich Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O_2 Cathode Materials for Li-Ion Batteries [C] . Rana Abdul Shakoor, Jeffin James Abraham, Haya Monawwar, Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：SiO_2的合成和性能评价涂覆锂锂的Li_（1.2）Ni_（0.13）Mn_（0.54）CO_（0.13）O_2 O_2 O_2锂离子电池的阴极材料
5. Investigating the Thermal Stability and Cation Ordering in Layered Cathode LixMO2(x ≤ 1; M = Co, Mn, Ni) Materials for Li-ion Rechargeable Batteries and Studying theFerroelectric Properties of LiNbO3 Nanoparticles [D] . Mohanty, Debasish. 2011

机译：研究层状正极LixMO2（x≤1; M = Co，Mn，Ni）的锂离子可充电电池的热稳定性和阳离子有序性，并研究LiNbO3纳米粒子的铁电性能
6. Li1.2Mn0.54Ni0.13Co0.13O2-Encapsulated Carbon Nanofiber Network Cathodes with Improved Stability and Rate Capability for Li-ion Batteries [O] . Dingtao Ma, Peixin Zhang, Yongliang Li, -1

机译：Li1.2Mn0.54Ni0.13Co0.13O2封装的碳纳米纤维网络阴极具有改善的锂离子电池稳定性和速率能力
7. Synthesis optimization,characterization and electrochemical performance of LiLi_(0.2)Mn_(0.54)Ni_(0.13)Co_(0.13)O_2 as cathode material of lithium ion battery [O] . 郑建明, 吴晓彪, 杨勇 2011

机译：锂离子电池正极材料Li Li_（0.2）Mn_（0.54）Ni_（0.13）Co_（0.13） O_2的合成优化，表征及电化学性能

A time and energy conserving solution combustion synthesis of nano Li_(1.2)Ni_(0.13)Mn_(0.54)Co_(0.13)O2 cathode material and its performance in Li-ion batteries

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