Synthesis of FePO_4·2H_2O nanoplates and their usage for fabricating superior high-rate performance LiFePO_4

Meng Wang; Yinghui Xue; Keli Zhang; Youxiang Zhang

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Synthesis of FePO_4·2H_2O nanoplates and their usage for fabricating superior high-rate performance LiFePO_4

机译：FEPO_4·2H_2O纳米板的合成及其制造优质高速性能LiFepo_4的用途

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摘要

Monoclinic phase FePO_4·2H_2O nanoplates are synthesized very easily in a waterbath and are lithiated to LiFePO_4/C nanoparticles by a simple rheological phase method. The thickness of the nanoplates can be tuned simply by changing the concentrations of the reactants. The LiFePO_4/C nanoparticles lithiated from the thin FePO_4·2H_2O nanoplates, with the sizes about 50 nm and the carbon coating layer at the surface 1-2 nm, show excellent high-rate performance and long-term cyclability as the cathode for lithium ion batteries, delivering discharge capacities of more than 150, 120, 110, 100, and 75 mAh g~(-1) at rates of 5 C, 10 C, 15 C, 20 C and 30 C, respectively.

机译：单斜晶相FEPO_4·2H_2O纳米板在水浴中非常容易地合成，并通过简单的流变期方法与LiFePO_4 / C纳米颗粒相米。通过改变反应物的浓度，可以简单地调谐纳米板的厚度。从薄的FEPO_4·2H_2O纳米板锂锂的LiFePO_4 / c纳米粒子，其面积为1-2nm的大约50nm和碳涂层，显示出优异的高速性能和作为锂离子的阴极的长期性能性电池，分别以5℃，10c，15c，20 c和30c的速率提供超过150,120,110,100和75mAhg〜（-1）的放电容量。

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来源
《Electrochimica Acta》 |2011年第11期|共5页
作者
Meng Wang; Yinghui Xue; Keli Zhang; Youxiang Zhang;
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作者单位

College of Chemistry and Molecular Sciences Wuhan University;

College of Chemistry and Molecular Sciences Wuhan University;

College of Chemistry and Molecular Sciences Wuhan University;

College of Chemistry and Molecular Sciences Wuhan University;

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原文格式 PDF
正文语种 eng
中图分类电化学工业;物理化学（理论化学）、化学物理学;
关键词
FePO_4·2H_2O nanoplates; LiFePO_4/C composite; Rheological phase method; Cathode electrode materials; Lithium-ion batteries;

机译：FEPO_4·2H_2O纳米板;LiFePO_4 / C复合材料;流变阶段方法;阴极电极材料;锂离子电池;

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专利

1. Synthesis of FePO_4·2H_2O nanoplates and their usage for fabricating superior high-rate performance LiFePO_4 [J] . Meng Wang, Yinghui Xue, Keli Zhang, Electrochimica Acta . 2011,第11期

机译：FEPO_4·2H_2O纳米板的合成及其制造优质高速性能LiFepo_4的用途
2. Preparation and electrochemical properties of LiFePO_4/C nanocomposite using FePO_4·2H_2O nanoparticles by introduction of Fe_3(PO_4)_2·8H_2O at low cost [J] . C. Chen, G. B. Liu, Y. Wang, Electrochimica Acta . 2013,第Null期

机译：低成本引入Fe_3（PO_4）_2·8H_2O的FePO_4·2H_2O纳米粒子制备LiFePO_4 / C纳米复合材料及其电化学性能
3. A novel sol-gel method based on FePO_4·2H_2O to synthesize submicrometer structured LiFePO_4/C cathode material [J] . Wenxiu Peng, Lifang Jiao, Haiyan Gao, Journal of power sources . 2011,第5期

机译：基于FePO_4·2H_2O的溶胶-凝胶法合成亚微米结构的LiFePO_4 / C正极材料
4. Controlled Crystallization Synthesis of Porous FePO_4·3H_2O Micro-spheres for Fabricating High Performance LiFePO_4/C Cathode Materials [C] . Wenkui Zhang, Huijuan Zeng, Yang Xia, International Conference on Chemical, Material and Metallurgical Engineering . 2012

机译：多孔FEPO_4·3H_2O微球的控制结晶合成，用于制造高性能LiFePO_4 / C阴极材料
5. Photochemical Synthesis and Catalytic Applicationsof Gold Nanoplates Fabricated Using Quercetin Diphosphate Macromolecules [O] . FrancisJ. Osonga, Victor M. Kariuki, Victor M. Wambua, 2019

机译：光化学合成及催化应用槲皮素二磷酸大分子制备金纳米板的制备
6. Synthesis of micro-nano hierarchical structured LiFePO(4)/C composite with both superior high-rate performance and high tap density [O] . Wang Meng（Wuhan Univ Coll Chem Mol Sci）, Yang Yong, 杨勇, 2011

机译：具有优异的高倍率性能和高振实密度的微纳米分层结构LiFePO（4）/ C复合材料的合成

Synthesis of FePO_4·2H_2O nanoplates and their usage for fabricating superior high-rate performance LiFePO_4

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