Article ID Journal Published Year Pages File Type
1488763 Materials Research Bulletin 2013 7 Pages PDF
Abstract

•LiFe0.94Mg0.03Cu0.03PO4/C is synthesized by adding glucose with two-step method.•Conductive polymer polyaniline is used to replace acetylene black.•The content of conductive additive is optimized by the percolation theory.•LFPC-2 cathode containing polyaniline possesses the excellent performance.

Comprehensive methods were utilized to improve the electrochemical performances of LiFe0.94Mg0.03Cu0.03PO4/C (LFPC) composite cathode. Experimental results show that LFPC-2, prepared by adding glucose in two steps, possesses the effective incorporated of doping ions and well-distributed pyrolysis carbon. It possesses higher conductivity and discharge capacity. The percolation theory analysis shows that the conductivity of LFPC-2 cathode film reaches its maximum value at the mass content of 15 wt.%. The replacement of acetylene black with polyaniline can greatly improve the electrochemical performances of LFPC-2 cathode. Its discharge capacity is 85.3 mAh g−1 and its potential platform is as high as 3.2 V at the current density of 850 mA g−1 when 15 wt.% polyaniline is used. The cycle performance of LFPC-2 is improved when polyaniline is used as conductive additives. And the change of charge transfer resistance of LFPC-2 cathode containing polyaniline is very small after 24 cycles.

Graphical abstractRelationships between the conductivities of LFPC-2 cathode and the volume percentages of AB (a) and PAn (b).Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Materials Science Ceramics and Composites
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