Synthesis and characterization of nano-LiFePO4/carbon composite cathodes from 2-methoxyethanol-water system

Hui Liu; Jingying Xie; Ke Wang

doi:10.1016/j.jallcom.2007.05.031

Synthesis and characterization of nano-LiFePO₄/carbon composite cathodes from 2-methoxyethanol-water system

Hui Liu, Jingying Xie, Ke Wang

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

Using 2-methoxyethanol-water solution as the media, nano-LiFePO₄/carbon composite cathodes material have been synthesized via a simple and new sol-gel route from iron nitrate, lithium dihydrogen phosphate. X-ray diffraction analysis, field emission scanning electron microscopy and transmission electron microscope observations showed that LiFePO₄ with a well-crystallized olivine structure appeared in the heat-treated powder and the average particle size was about 65 nm with uniform distribution. In the process of heat treatment, the sucrose decomposed on the surface of LiFePO₄ particles to in situ form carbon conductive webs structure. The favorable physical characteristics of the nano-LiFePO₄/carbon composite materials exhibited excellent rate performance and cyclability, delivering a discharge capacity of 103 mAh g^-1 (10C charge/discharge rate) after 50 cycles.

Original language	English
Pages (from-to)	521-525
Number of pages	5
Journal	Journal of Alloys and Compounds
Volume	459
Issue number	1-2
DOIs	https://doi.org/10.1016/j.jallcom.2007.05.031
State	Published - 14 Jul 2008
Externally published	Yes

Keywords

Composite
Lithium-ion batteries
Nano-LiFePO
Sol-gel

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.jallcom.2007.05.031

Cite this

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title = "Synthesis and characterization of nano-LiFePO4/carbon composite cathodes from 2-methoxyethanol-water system",

abstract = "Using 2-methoxyethanol-water solution as the media, nano-LiFePO4/carbon composite cathodes material have been synthesized via a simple and new sol-gel route from iron nitrate, lithium dihydrogen phosphate. X-ray diffraction analysis, field emission scanning electron microscopy and transmission electron microscope observations showed that LiFePO4 with a well-crystallized olivine structure appeared in the heat-treated powder and the average particle size was about 65 nm with uniform distribution. In the process of heat treatment, the sucrose decomposed on the surface of LiFePO4 particles to in situ form carbon conductive webs structure. The favorable physical characteristics of the nano-LiFePO4/carbon composite materials exhibited excellent rate performance and cyclability, delivering a discharge capacity of 103 mAh g-1 (10C charge/discharge rate) after 50 cycles.",

keywords = "Composite, Lithium-ion batteries, Nano-LiFePO, Sol-gel",

author = "Hui Liu and Jingying Xie and Ke Wang",

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T1 - Synthesis and characterization of nano-LiFePO4/carbon composite cathodes from 2-methoxyethanol-water system

AU - Liu, Hui

AU - Xie, Jingying

AU - Wang, Ke

PY - 2008/7/14

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N2 - Using 2-methoxyethanol-water solution as the media, nano-LiFePO4/carbon composite cathodes material have been synthesized via a simple and new sol-gel route from iron nitrate, lithium dihydrogen phosphate. X-ray diffraction analysis, field emission scanning electron microscopy and transmission electron microscope observations showed that LiFePO4 with a well-crystallized olivine structure appeared in the heat-treated powder and the average particle size was about 65 nm with uniform distribution. In the process of heat treatment, the sucrose decomposed on the surface of LiFePO4 particles to in situ form carbon conductive webs structure. The favorable physical characteristics of the nano-LiFePO4/carbon composite materials exhibited excellent rate performance and cyclability, delivering a discharge capacity of 103 mAh g-1 (10C charge/discharge rate) after 50 cycles.

AB - Using 2-methoxyethanol-water solution as the media, nano-LiFePO4/carbon composite cathodes material have been synthesized via a simple and new sol-gel route from iron nitrate, lithium dihydrogen phosphate. X-ray diffraction analysis, field emission scanning electron microscopy and transmission electron microscope observations showed that LiFePO4 with a well-crystallized olivine structure appeared in the heat-treated powder and the average particle size was about 65 nm with uniform distribution. In the process of heat treatment, the sucrose decomposed on the surface of LiFePO4 particles to in situ form carbon conductive webs structure. The favorable physical characteristics of the nano-LiFePO4/carbon composite materials exhibited excellent rate performance and cyclability, delivering a discharge capacity of 103 mAh g-1 (10C charge/discharge rate) after 50 cycles.

KW - Composite

KW - Lithium-ion batteries

KW - Nano-LiFePO

KW - Sol-gel

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