Li/LiV3O8 polymer electrolyte rechargeable batteries

The characteristics of an Li/LiV30s polymer electrolyte battery have been examined by charge-discharge cycling tests and by frequency response analysis. The results indicate that cell failures, such as capacity decline upon cycling, are a consequence of geometric inadequacy, probably resulting from

Polyacrylonitrile (PAN)-and poly(vinyl chloride) (PVC)-based Li+-conductive thin-film electrolytes have been found to be suitable in rechargeable Li and Li-ion cells. Li/LixMn2Oy and carbon/LiNiO2 cells fabricated with these electrolytes have demonstrated rate capabilities greater than the C-rate an

The discharge/charge characteristics of Li/polymeric solid electrolyte/LiMn,O, batteries at room temperature were investigated. The battery exhibited a large realizable capacity and long cycle life. The reaction of the interface between lithium electrode and polymeric solid electrolyte is controlled

Various systems of Ll/S02 rechargeable batteries are reviewed based on electrolyte salts, types of negative electrodes, and types of electrolytes. Development and progress in these systems are briefly described. Electrolyte properties, electrode problems, and cell performance and features are discus