Journal of the Electrochemical Society, Vol.146, No.5, 1672-1676, 1999
Enhanced lithium-ion transport in PEG-based composite polymer electrolytes with ferroelectric BaTiO3
The ion-conduction properties of a polyethylene oxide (PEO)-based composite polymer electrolyte comprised of PEG, LiClO4, and the ferroelectric material BaTiO3 were studied. The addition of BaTiO3 resulted in an increase in conductivity over the temperature range 25-115 degrees C. The optimum amount of BaTiO3 (purity 99.9%, particle size 0.6-1.2 mu m) was 1.4 wt %, which is very low in comparison with previously reported composite polymer electrolytes. The ionic conductivity of a composite polymer electrolyte containing 1.4 wt % BaTiO3 was 1 X 10(-5) S cm(-1) at 25 degrees C, which is at least one order of magnitude higher than that of the pristine polymer electrolyte (4 X 10(-7) S cm(-1)). The transport number of the lithium ion in this composite polymer electrolyte was higher than that of the pristine polymer electrolyte. The increase in the conductivity and the lithium-ion transport number is explained on the basis of the spontaneous polarization of the ferroelectric material due to its particular crystal structure. The addition of BaTiO3 powder greatly enhanced the lithium/electrolyte interface stability.