Passivating films on lithium electrodes. An approach by means of electrode impedance spectroscopy

The behaviour of the passivating layers formed by anodic polarization on zinc electrodes in borate and arsenate and in borate arsenate mixture solutions of pH 8.9 was studied by means of impedance measurements and XPS analysis. An equivalent circuit for the system is employed for the data fitting. S

The properties of the primary passivation film formed on a lithium electrode in a solution of LiA1C14 in thionyl chloride are described. The thickness of the film grows rapidly to 1 -1.5 nm during the first few hours after contact of the lithium with the electrolyte, and then becomes -5 nm after a c

The ac-Impedance of an electrode wluch IS coated by a prec~pltated salt lilm 1s described An important aspect of tlus model 1s that It descnbcs the modulation of the film tluckness which &splays an impedance spectrum typical of that of an RC-senes clrcmt (I e a verttcal stra&t lme on the Nyqmst diag

Ahatraet-Impedance measurements have been combined with ellipsometric measurements. The optical properties change with varying potential due to the formation of a thin layer or to changes in the composition of the passive f&t. This combination of techniques can, therefore, give more insight into the

LiCoO 2 electrodes were fabricated with different acetylene carbon (AC) additions and fixed binder content. Subsequent electrochemical testing showed different processes at the interface that are related to pore distribution and electrode composition. Electrochemical impedance spectroscopy character