Superior Na-Storage Performance of Low-Temperature-Synthesized Na-3(VO1-xPO4)(2)F1+2x (0  = x  = 1) Nanoparticles for Na-Ion Batteries

Qi Yuruo; Mu Linqin; Zhao Junmei; Hu Yong-Sheng; Liu Huizhou; Dai Sheng

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Superior Na-Storage Performance of Low-Temperature-Synthesized Na-3(VO1-xPO4)(2)F1+2x (0 = x = 1) Nanoparticles for Na-Ion Batteries

机译：低温合成Na-3离子电池用Na-3（VO1-xPO4）（2）F1 + 2x（0 <= x <= 1）纳米粒子的优异Na储存性能

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Na-ion batteries are becoming comparable to Li-ion batteries because of their similar chemical characteristics and abundant sources of sodium. However, the materials production should be cost-effective in order to meet the demand for large-scale application. Here, a series of nanosized high-performance cathode materials, Na-3(VO1-xPO4)(2)F1+2x (0 <= x <= 1), has been synthesized by a solvothermal low-temperature (60-120 degrees C) strategy without the use of organic ligands or surfactants. The as-synthesized Na-3(VOPO4)(2)F nanoparticles show the best Na-storage performance reported so far in terms of both high rate capability (up to 10C rate) and long cycle stability over 1200 cycles. To the best of our knowledge, the current developed synthetic strategy for Na-3(VO1-xPO4)(2)F1+2x is by far one of the least expensive and energy-consuming methods, much superior to the conventional high-temperature solid-state method.

机译：钠离子电池由于其相似的化学特性和丰富的钠来源，正变得可与锂离子电池相比。但是，材料生产应具有成本效益，以满足大规模应用的需求。在这里，通过溶剂热低温（60-120度）合成了一系列纳米级高性能阴极材料Na-3（VO1-xPO4）（2）F1 + 2x（0 <= x <= 1） C）不使用有机配体或表面活性剂的策略。合成后的Na-3（VOPO4）（2）F纳米颗粒在高倍率能力（最高10C倍率）和超过1200个循环的长循环稳定性方面均表现出迄今为止最佳的Na储存性能。据我们所知，目前开发的Na-3（VO1-xPO4）（2）F1 + 2x合成策略是迄今为止最便宜，最耗能的方法之一，远远优于传统的高温固体状态方法。

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《Angewandte Chemie》 |2015年第34期|共6页
作者
Qi Yuruo; Mu Linqin; Zhao Junmei; Hu Yong-Sheng; Liu Huizhou; Dai Sheng;
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cathode; Na-3(VOPO4)(2)F; Na-ion batteries; nanoparticles; solvothermal synthesis;

机译：阴极;Na-3（VOPO4）（2）F;钠离子电池;纳米粒子;溶剂热合成;

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1. Superior Na-Storage Performance of Low-Temperature-Synthesized Na-3(VO1-xPO4)(2)F1+2x (0 = x = 1) Nanoparticles for Na-Ion Batteries [J] . Qi Yuruo, Mu Linqin, Zhao Junmei, Angewandte Chemie . 2015,第34期

机译：低温合成Na-3离子电池用Na-3（VO1-xPO4）（2）F1 + 2x（0 <= x <= 1）纳米粒子的优异Na储存性能
2. Superior Na-storage performance of Na3V2(PO4)(3)/C-Ag composites as cathode material for Na-ion battery [J] . Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2020,第期

机译：Na3v2（PO4）（3）/ c-Ag复合材料的优越Na储存性能作为Na离子电池的阴极材料
3. Superior Na-storage performance of molten-state-blending-synthesized monoclinic NaVPO4F nanoplates for Na-ion batteries [J] . Ling Moxiang, Li Fan, Yi Hongming, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第47期

机译：用于Na离子电池的熔融 - 状态混合合成的单斜型单斜纳米载体的优异Na储存性能
4. Synthesis and Characterization of a Novel Layered Cathode Material with Superior Performance for Na-ion Batteries [C] . Marlou Keller, Daniel Buchholz, Stefano Passerini International Conference on Advanced Batteries, Accumulators and Fuel Cells . 2015

机译：新型层状阴极材料的合成与表征，具有卓越的Na离子电池性能
5. Enhancing Electrochemical Performance of Electrode Materials for Li-Ion Batteries and Na-Ion Batteries via Thermodynamic Surface/Interface Control [D] . Huang, Jiajia 2017

机译：通过热力学表面/界面控制提高锂离子电池和钠离子电池用电极材料的电化学性能
6. Superior Low-Temperature Power and Cycle Performancesof Na-Ion Battery over Li-Ion Battery [O] . Kazuhiko Mukai, *, Takao Inoue, 2017

机译：卓越的低温功率和循环性能离子电池对锂离子电池的了解
7. Superior Low-Temperature Power and Cycle Performances of Na-Ion Battery over Li-Ion Battery [O] . Kazuhiko Mukai, Takao Inoue, Yuichi Kato, 2017

机译：与锂离子电池相比，钠离子电池具有出色的低温功率和循环性能

Superior Na-Storage Performance of Low-Temperature-Synthesized Na-3(VO1-xPO4)(2)F1+2x (0 = x = 1) Nanoparticles for Na-Ion Batteries

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