Evolution of the electrode–electrolyte interface in a lithium–polymer battery

The electrochemical deposition and stripping of lithium have been examined using three-electrode cells with a polyethylene oxide-lithium trifluoromethanesulphonate polymer electrolyte. The results show that the process is reversible, but that the kinetics are influenced by the nature of the electrod

Kinetics and mechanisms for the electrodeposition of lithium from liquid and solid polymer electrolytes formed from lithium salts or from lithium salt complexes have been studied using chronoamperometric and cyclic voltammetric methods at a microelectrode. The type of nucleation and crystal growth p

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

Abstiad-The electrical double layer at the interface between a solid polymer electrolyte and a metal electrode is discussed. A new cell is described in which mercury may flow across the surface of a solid polymer electrolyte. Results obtained with this cell are presented for the polarizable (blockin