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Abstract
In this study, Li 3V 2(PO 4) 3/carbon samples were synthesized by two different synthesis routes. Their influence on chemical and electrochemical performances of Li 3V 2(PO 4) 3/carbon as cathode materials for lithium-ion batteries was investigated. The structure and morphology of Li 3V 2(PO 4) 3/carbon were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscope (TEM) measurements. TEM revealed that the Li 3V 2(PO 4) 3 grains synthesized through the sol–gel route had a depressed grain size. Electrochemical behaviors were characterized by galvanostatic charge/discharge, cyclic voltammetry and AC impedance measurements. Li 3V 2(PO 4) 3/carbon with smaller grain size showed better performances in terms of the discharge capacity and cycle stability. The improved electrochemical properties of the Li 3V 2(PO 4) 3/carbon were attributed to the depressed grain size and enhanced electrical contacts produced via the sol–gel route. AC impedance measurements also showed that the sol–gel route significantly decreased the charge-transfer resistance and shortened the migration distance of lithium ion.
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