Article ID Journal Published Year Pages File Type
189875 Electrochimica Acta 2011 5 Pages PDF
Abstract

The Li–V–O composite (nLi:nV = 1:3.5) was synthesized by a hydrothermal method and post-treated at 300 °C. XRD analysis confirms that the composite is a binary LiV3O8–V2O5 composite system with the formula of 0.8LiV3O8·0.2V2O5. The composite consists of small laminar nanocrystallites with numerous cavities between the stacked laminar nanocrystallites, which can provide good channels for Li+ transfer during charge–discharge cycling. The initial discharge capacities of LiV3O8 and 0.8LiV3O8·0.2V2O5 samples were 276 and 365 mAh/g after 20 cycles, the discharge capacities of the two samples were 197.6 and 304 mAh/g, respectively. Smaller capacity loss indicates that the capacity retention of the composite is superior to that of bare LiV3O8 cathode.

► The composite is a binary LiV3O8–V2O5 composite system with the formula of 0.8LiV3O8·0.2V2O5. ► The composite consists of small laminar nanocrystallites with numerous cavities between the stacked laminar nanocrystallites ► The discharge capacity of 0.8LiV3O8·0.2V2O5 sample is much higher than that of LiV3O8 sample ► The capacity retention of the composite is superior to that of bare LiV3O8 cathode.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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