Dynamics of Electrochemical Noise of the Lithium Electrode in Aprotic Organic Electrolytes

The anodic dissolution and cathodic deposition of lithium is strongly influenced by the reductior or formation of surface layers, the reduction of the electrolyte, chemical side reactions and adsorption processes in the presence of some special additives used within the liquid electrolyte solution.

Of the various lead oxides tested, red lead (Pb304) proved to be the most suitable for use as cathode material in lithium cells having a voltage of 1.5 V. Based on electrochemical, chemical, and physical measurements, the reaction mechanisms of red lead cathodes are discussed. The reduction of red l

The characteristics of the lithiutn electrode were examined in an organic and a polymeric electrolyte of interest for the development of rechargeable batteries. Results obtained by frequency response analysis and by polarization curves. were used to identify charge-transfer resistance, double layer

Hydrocarbons show considerable surface activity in organic electrolytes; they, at least partially, displace the polar organic solvent molecules from any solid/electrolyte interface. Saturated hydrocarbons are chemically stable even uersus lithium or lithium-rich alloys, and thus they are able to del