Hydrothermal synthesis of spindle-shape and craggy-faced LiFePO4/C composite materials for high power Li-ion battery

Yu Weiyan; Wu Lili; Zhao Jinbo; Zhang Yanpeng; Li Gaozeng

首页> 外文期刊>Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan >Hydrothermal synthesis of spindle-shape and craggy-faced LiFePO4/C composite materials for high power Li-ion battery

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Hydrothermal synthesis of spindle-shape and craggy-faced LiFePO4/C composite materials for high power Li-ion battery

机译：水热法合成大功率锂离子电池纺锤形凹凸面LiFePO4 / C复合材料

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The large surface area and excellent conductivity are two important factors for LiFePO4 to achieve high power capability in Li-ion batteries. This paper presents a hydrothermal method to obtain large surface, spindle-shape and carbon-coated LiFePO4 particles. Pyrogallic acid was added to serve as reducing agent, surface growth directing template and carbon source to synthesize craggy-faced LiFePO4/C composite materials. It helps to control the morphology and implement carbon coating on the particles. The LiFePO4/C particle synthesized with 8 wt.% pyrogallic acid demonstrates excellent electrochemical performance, cyclic ability and rate capability. (C) 2014 The Society of Powder Technology Japan. Published by Elsevier B.V. and The Society of Powder Technology Japan. All rights reserved.

机译：较大的表面积和出色的导电性是LiFePO4在锂离子电池中实现高功率能力的两个重要因素。本文提出了一种水热法来获得大的表面，纺锤形和碳包覆的LiFePO4颗粒。加入邻苯二甲酸作为还原剂，表面生长指导模板和碳源，以合成粗糙的LiFePO4 / C复合材料。它有助于控制形态并在颗粒上进行碳涂层。由8％（重量）焦没食子酸合成的LiFePO4 / C颗粒具有出色的电化学性能，循环能力和速率能力。（C）2014日本粉末技术学会。由Elsevier B.V.和日本粉末技术学会出版。版权所有。

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来源
《Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan》 |2014年第6期|共5页
作者
Yu Weiyan; Wu Lili; Zhao Jinbo; Zhang Yanpeng; Li Gaozeng;
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正文语种 eng
中图分类粉末技术;
关键词
LiFePO4/C; Hydrothermal method; Pyrogallic acid; Spindle shape; Craggy-faced;

机译：LiFePO4 / C;水热法;邻苯二甲酸;纺锤形;shape面;

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1. Hydrothermal synthesis of spindle-shape and craggy-faced LiFePO4/C composite materials for high power Li-ion battery [J] . Yu Weiyan, Wu Lili, Zhao Jinbo, Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan . 2014,第6期

机译：水热法合成大功率锂离子电池纺锤形凹凸面LiFePO4 / C复合材料
2. Synthesis and characterization of LiFePO4/3-dimeEsional carbon nanostructure composites as possible cathode materials for Li-ion batteries [J] . Lucangelo Dimesso, Christina Spanheimer, Susanne Jacke Ionics . 2011,第5期

机译：LiFePO4 / 3-dimeEsional碳纳米结构复合材料的合成与表征，可作为锂离子电池的正极材料
3. The composite electrode of LiFePO4 cathode materials modified with exfoliated graphene from expanded graphite for high power Li-ion batteries [J] . Tiefeng Liu, Li Zhao, Junsheng Zhu Journal of Materials Chemistry, A. Materials for energy and sustainability . 2014,第8期

机译：大功率锂离子电池用膨胀石墨片状石墨烯改性的LiFePO4正极材料的复合电极
4. Synthesis and electrochemical performances of spherical LiFePO4 cathode materials for Li-ion batteries [C] . 2006 Beijing International Materials Week —— International Conference on New Energy Materials论文集 . 2006

机译：锂离子电池用球形LiFePO4正极材料的合成及电化学性能
5. Enhanced electrochemical properties of aluminum doped lithium iron phosphate (LiFePO4) cathode material for Li-ion battery using solid state synthesis [D] . Sirigineedi, Jagadish Babu. 2016

机译：固态合成提高铝掺杂磷酸铁锂（LiFePO4）正极材料的电化学性能
6. Facile One-Step Dynamic Hydrothermal Synthesis of Spinel LiMn2O4/Carbon Nanotubes Composite as Cathode Material for Lithium-Ion Batteries [O] . Chaoqi Shen, Hui Xu, Liu Liu, 2019

机译：锂离子电池正极材料尖晶石LiMn2O4 /碳纳米管的快速一步动态水热合成
7. Controllable synthesis of high loading LiFePO4/C nanocomposites using bimodal mesoporous carbon as support for high power Li-ion battery cathodes [O] . Fei Cheng, Duo Li, Anhui Lu, 2013

机译：使用双峰介孔碳的高负荷LiFePO4 / C纳米复合材料的可控合成作为高功率锂离子电池阴极的支撑

Hydrothermal synthesis of spindle-shape and craggy-faced LiFePO4/C composite materials for high power Li-ion battery

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