On controlling the P2-O2 phase transition by optimal Ti-substitution on Ni- site in P2-type Na_(0.67)Ni_(0.33)Mn_(0.67)O_2 (NNMO) cathode for Na-ion batteries

Pahari Debanjana; Puravankara Sreeraj

首页> 外文期刊>Journal of power sources >On controlling the P2-O2 phase transition by optimal Ti-substitution on Ni- site in P2-type Na_(0.67)Ni_(0.33)Mn_(0.67)O_2 (NNMO) cathode for Na-ion batteries

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On controlling the P2-O2 phase transition by optimal Ti-substitution on Ni- site in P2-type Na_(0.67)Ni_(0.33)Mn_(0.67)O_2 (NNMO) cathode for Na-ion batteries

机译：在N NI_（0.33）Ni_（0.33）Mn_（0.67）O_2（NNMO）阴极中最佳Ti取代的最佳Ti替代在NI-离子电池中的Ni - 离子电池中的P2-O2相转变

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Novel electrode materials of P2-type layered oxides, Na-0.67 Ni0.33-xTixMn0.67O2 (x = 0, 0.08 and 0.16) are synthesized via solid state synthesis methods and electrochemically characterized as cathode materials for rechargeable non-aqueous sodium ion batteries. Na0.67Ni0.17Ti0.16Mn0.67O2 electrodes can deliver initial discharge capacity of 167 mAhg(-1 )at 0.1C rate with an average voltage of 3.7 V. Na0.67Ni0.25Ti0.08Mn0.67O2 electrodes lose only 12% of its initial capacity after 50 cycles when cycled to an upper cut-off voltage of 4.3 V. Controlling the P2-O2 transition at higher voltages through either optimized cut-off voltages or substitution is critical for improving the capacity retention. A complete reversible P2-OP4 transition occur only in optimally substituted sample, Na0.67Ni0.25Ti0.08Mn0.67O2 where as P2-O2 transition reemerges with higher amount of substitution in Na0.67Ni0.17Ti0.16Mn0.67O2.

机译：通过固态合成方法合成P2型分层氧化物的新型电极材料，Na-0.67 NiO 3 3-XtixmN0.67O2（x = 0,0.08和0.16），并电化学表征为可充电非水离子电池的阴极材料。 Na0.67Ni0.17Ti0.16mn0.67O2电极可以以0.1c速率提供167 mahg（-1）的初始放电容量，平均电压为3.7 V.NA0.67NI0.25TI0.08MN0.67O2电极仅损失其12％在循环到4.3 V的上截止电压后50个循环后的初始容量。通过优化的截止电压或取代来控制较高电压下的P2-O2过渡对于提高容量保持至关重要。完全可逆的P2-OP 4转变仅发生在最佳取代的样品Na0.67NI0.25Ti0.08mN0.67O2的情况下，其中在Na0.67Ni0.17Ti0.16Mn0.67O2中具有较高量的取代的P2-O2过渡再现。

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来源
《Journal of power sources》 |2020年第15期|227957.1-227957.7|共7页
作者
Pahari Debanjana; Puravankara Sreeraj;
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作者单位

Indian Inst Technol Kharagpur Sch Energy Sci & Engn Kharagpur 721302 W Bengal India;

Indian Inst Technol Kharagpur Sch Energy Sci & Engn Kharagpur 721302 W Bengal India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Sodium-ion battery; Cathode materials; Transition metal oxides; Titanium substitution; P2-O2 transition;

机译：钠离子电池;阴极材料;过渡金属氧化物;钛取代;P2-O2过渡;

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1. The role of Zn substitution in P2-type Na_(0.67)Ni_(0.23)Zn_(0.1)Mn_(0.67)O_2 cathode for inhibiting the phase transition at high potential and dissolution of manganese at low potential [J] . Hong Jian-He, Wang Man-Yu, Du Yuan-Yuan, Journal of materials science . 2019,第4期

机译：Zn取代在P2型Na_（0.67）Ni_（0.23）Zn_（0.1）Mn_（0.67）O_2阴极中抑制高电位下的相变和锰在低电位下的溶解的作用
2. Crystal structure stabilization, electrochemical properties, and morphology of P2-type Na_(0.67)Mn_(0.625)Fe_(0.25)Ni_(0.125)O_2 for Na-ion battery cathodes [J] . Garg Uma, Rexhausen William, Smith Nathaniel, Journal of power sources . 2019,第AUGa15期

机译：Na离子电池阴极P2型Na_（0.67）Mn_（0.625）Fe_（0.25）Ni_（0.125）O_2的晶体结构稳定性，电化学性能和形貌
3. Novel P2-type concentration-gradient Na_(0.67)Ni_(0.167)Co_(0.167)Mn_(0.67)O_2 modified by Mn-rich surface as cathode material for sodium ion batteries [J] . Bao Shuo, Luo Shao-hua, Wang Zhi-yuan, Journal of power sources . 2018,第auga31期

机译：富锰表面修饰的新型P2型浓度梯度Na_（0.67）Ni_（0.167）Co_（0.167）Mn_（0.67）O_2作为钠离子电池的正极材料
4. P2 - Type Na_(0.67)Mn_(0.8)Cu_(0.1)Mg_(0.1)O_2 as a New Cathode Material for Sodium-Ion Batteries: Insights of the Synergetic Effects of Multi-Metal Substitution and Electrolyte Optimization [C] . Jinke Li, Martin Winter Battery Engineering Symposium . 2019

机译：P2 - 型NA_（0.67）MN_（0.8）CU_（0.1）Mg_（0.1）O_2作为钠离子电池的新型阴极材料：多金属替代和电解质优化的协同效应见解
5. Titanium-doped P2-type Na0.67Co0.67Mn0.33-χTiχO2 (0 ≤ χ ≤ 0.2) as Novel Cathodes for Sodium Ion Batteries with Superior-Rate [O] . Dengmei Zhou 2018

机译：钛掺杂P2型Na0.67Co0.67mn0.33-χTiχO2（0≤χ≤0.2），作为钠离子电池的新型阴极，具有高速率

On controlling the P2-O2 phase transition by optimal Ti-substitution on Ni- site in P2-type Na_(0.67)Ni_(0.33)Mn_(0.67)O_2 (NNMO) cathode for Na-ion batteries

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