Issue 12, 2011

Synthesis of LiFePO4/C cathode materials with both high-rate capability and high tap density for lithium-ion batteries

Abstract

LiFePO4/C microspheres composed of many densely compact nanoplates were synthesized by a simple rheological phase method using nanoplate assembled quasi-microspheres of FePO4·2H2O as raw materials. The quasi-sphere FePO4·2H2O precursors were synthesized via a sodium dodecylsulfate assisted hydrothermal process. Both the LiFePO4/C composite and the FePO4·2H2O precursors were characterized by XRD, TG, SEM, TEM, and Raman spectroscopy. The FePO4·2H2O quasi-spheres had a size distribution of about 1 μm and were composed of nanoplates with a 30 nm thickness. The LiFePO4/C microspheres were also composed of the same sized nanoplates with an ∼2 nm thick amorphous carbon layer coating at the surface. The as-synthesized LiFePO4/C composite showed excellent high-rate capability, with discharge capacities reaching 116, 96 and 75 mAh g−1 at 10 C, 20 C and 30 C current rates, respectively. Furthermore, the LiFePO4/C material composed of microspheres had a high tap density (1.4 g cm−3). Therefore, this LiFePO4/C material can be the cathode material for large-scale applications such as electric vehicles and plug-in hybrid electric vehicles.

Graphical abstract: Synthesis of LiFePO4/C cathode materials with both high-rate capability and high tap density for lithium-ion batteries

Article information

Article type
Paper
Submitted
04 Oct 2010
Accepted
04 Jan 2011
First published
07 Feb 2011

J. Mater. Chem., 2011,21, 4156-4160

Synthesis of LiFePO4/C cathode materials with both high-rate capability and high tap density for lithium-ion batteries

X. Lou and Y. Zhang, J. Mater. Chem., 2011, 21, 4156 DOI: 10.1039/C0JM03331F

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