Electrochemical Properties of F-doped LiFePO4/C Prepared by Solid-state Synthesis

doi:10.3724/SP.J.1077.2008.00587

Abstract

Abstract: F-doped lithium iron phosphates were synthesized and in~situ carbon coated by two-step solid-state reaction using Fe(Ⅲ) compound as the iron source and polypropylene as the reductive agent and carbon source. The results show that the synthesized powders are near-spherical particles of 50--200nm with the olivine type LiFePO₄ structure. Two-step solid-state reaction inhibits the growth of LiFePO₄ particles more efficient compared with one-step solid-state reaction. The results of electrochemical measurement show that fluorin doping improves the rate capability of LiFePO₄ and decreases the polarization of LiFePO₄electrode effectively. The discharge capacities of LiFePO_3.98F_0.02/C cathode material are 146mAh/g, 137mAh/g, 122mAh/g at charge and discharge rates of 1C, 2C, 3C, respectively. Cycling efficiency of 99.3% can be obtained after 55 cycles at 1C rate.

Key words: lithium iron phosphate, lithium ion batteries, cathode materials, fluorin doping

CLC Number:

TM912

ZHOU Xin,ZHAO Xin-Bing,YU Hong-Ming,HU Jie-Zi. Electrochemical Properties of F-doped LiFePO₄/C Prepared by Solid-state Synthesis[J]. Journal of Inorganic Materials, DOI: 10.3724/SP.J.1077.2008.00587.

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Electrochemical Properties of F-doped LiFePO₄/C Prepared by Solid-state Synthesis

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