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JOURNAL ARTICLE

Synthesis and Electrochemical Properties of Li3V2(PO4)3-LiMnPO4Composite Cathode Material for Lithium-ion Batteries

Jin-Shik YunSoo KimByung Won ChoKwan-Young LeeKyung Yoon ChungWonyoung Chang

Year: 2013 Journal:   Bulletin of the Korean Chemical Society Vol: 34 (2)Pages: 433-436   Publisher: Wiley
DOI: 10.5012/bkcs.2013.34.2.433
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Abstract

Carbon-coated $Li_3V_2(PO_4)_3-LiMnPO_4$ composite cathode materials are first reported in this work, prepared by the mechanochemical process with a complex metal oxide as the precursor and sucrose as the carbon source. X-ray diffraction pattern of the composite material indicates that both olivine $LiMnPO_4$ and monoclinic $Li_3V_2(PO_4)_3$ co-exist. We further investigated the electrochemical properties of our $Li_3V_2(PO_4)_3-LiMnPO_4$ composite cathode materials using galvanostatic charging/discharging tests, where our $Li_3V_2(PO_4)_3-LiMnPO_4$ composite electrode materials exhibit the charge/discharge efficiency of 91.9%, while $Li_3V_2(PO_4)_3$ and $LiMnPO_4$ exhibit the efficiency of 87.7 and 86.7% in the first cycle. The composites display unique electrochemical performances in terms of overvoltage and cycle stability, displaying a reduced gap of 141.6 mV between charge and discharge voltage and 95.0% capacity efficiency after $15^{th}$ cycles.

Keywords:
Electrochemistry Materials science Monoclinic crystal system Lithium (medication) Cathode Composite number Anode Carbon fibers Electrode Chemical engineering Composite material Crystal structure Chemistry Crystallography Physical chemistry

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Citation History

Topics

Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Battery Technologies Research
Physical Sciences →  Engineering →  Automotive Engineering
Advanced Battery Materials and Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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