Title :
Development of glass-polymer composite electrolytes for Li-ion cells
Author :
Cho, Jaephil ; Kim, Geunbae ; Lim, Hongsup
Author_Institution :
Samsung Display Devices, ChunAn City, South Korea
Abstract :
A new type of solid-state electrolyte, the glass-polymer composite (GPC) electrolyte, has been developed. The electrochemical behavior of the GPC, consisting of 100-x vol% 0.54 Li2S·0.21 B2S3·0.25 LiI glass and x vol% P(EO)8 ·LiN(CF3SO2)2 polymer with x=7, 13, and 25, has been investigated. Results show that the addition of polymer to the glass powder increases not only the mechanical flexibility but also the ionic conductivity. The combination of impedance spectroscopy and four-probe DC measurements indicates that the GPC with x=13 vol% polymer exhibits the highest lithium ion conductivity, varying from 3×10-4 Ω-1 cm-1 at room temperature to 1.4×10-3 Ω -1 cm-1 at 80°C. The evolution of impedance spectra of the cells show that kinetic stability of the GPC electrolytes against LixC6 and LiMn2O4 electrodes is reasonably good, although there is an initial increase in interfacial resistance during cycling
Keywords :
composite materials; electrochemical electrodes; electrochemistry; glass; lithium; polymers; secondary cells; solid electrolytes; superionic conductivity; 1.4E-3 (ohmcm)-1; 3E-4 (ohmcm)-1; 80 C; Li-ion secondary batteries; LiC; LiMn2O4; cycling; electrochemical behavior; four-probe DC measurements; glass-polymer composite electrolytes; impedance spectra; impedance spectroscopy; interfacial resistance; ionic conductivity; kinetic stability; mechanical flexibility; solid-state electrolyte; Conductivity measurement; Electrochemical impedance spectroscopy; Glass; Impedance measurement; Kinetic theory; Lithium; Polymers; Powders; Solid state circuits; Temperature;
Conference_Titel :
Battery Conference on Applications and Advances, 1998., The Thirteenth Annual
Conference_Location :
Long Beach, CA
Print_ISBN :
0-7803-4098-1
DOI :
10.1109/BCAA.1998.653899
