Conductivity cell for temperature cycling of polymer electrolytes

This paper describes the conductivity data obtained for various polymeric electrolytes containing dispersed inorganic and organic fillers. For all of the systems studied an increase in ambient temperature conductivity in comparison with pristine poly(ethylene oxide)-based electrolytes was achieved.

## Abstract We developed an ionic conductivity model of solid polymer electrolytes for dye‐sensitized solar cells (DSSCs) based on the Nernst–Einstein equation in which the diffusion coefficient is derived from the molecular thermodynamic model. We introduced concentration‐dependence of the diffusi

The majority of investigations carried out on polymer-salt systems have been on polyether electrolytes a t moderate temperatures where such electrolytes exhibit macroscopic uniformity. Relatively little attention has been paid to the subambient temperature region where composite electrolytes based o

## Cross-linked ethoxy-ethoxy-ethoxy-vinyl ether polymers have been synthesized and complexed with lithium salts (eg LiClO, of LiBF,) to form a new class of polymer electrolytes. The characteristics of these electrolytes have been investigated in terms of ionic conductivity, lithium ion transport