Deeply fluorinated multi-wall carbon nanotubes for high energy and power densities lithium/carbon fluorides battery

Deeply fluorinated multi-wall carbon nanotubes (F-MWCNTs) with different diameters are prepared using the mixture of fluorine/nitrogen gas, and the molar ratio of fluorine to carbon is controlled to be approximate to 1. The electrochemical performances of F-MWCNTs are tested as the cathode material in primary lithium battery. The discharge rate of 4 C can be applied for these F-MWCNTs and F-MWCNTs with average diameter larger than 50 nm can support the high discharge rate up to 5C delivering a maximum power density of 7114.1W kg(-1), associated with a high 1923 Wh kg(-1) energy density. The conductive networks of intimately contacting MWCNTs in nano-scale and the intrinsic fast rate capability of one-dimensional nanostructures account for the high power density of F-MWCNTs. Moreover, F-MWCNTs with larger diameter exhibits better electrochemical performances. Based on the pore size distribution and impedance results, it is proposed that the F-MWCNTs with larger diameters can effectively avoid the surface and networks of F-MWCNTs being blocked by the enlarged LiF crystals, and hence display the better electrochemical performances. (C) 2013 Elsevier Ltd. All rights reserved.