Electrical conductivity and stability of polymeric salts

The temperature dependence of electrical conductivity of CuIr 2 S 4 has been measured. In the range 4.2-50 K the conductivity can be described in terms of the Mott law, while in the range 50-200 K the experimental data are best described in terms of a small polaron model, taking into account the inf

## Abstract The steady‐state (d.c.) electrical conductivity of polypropylene has been measured as a function of temperature (25–150°C.) and field strength (0–94 kv./cm.). The temperature coefficient of the conductivity is 34.6 kcal./mole expressed as an activation energy. This is much larger than t

Conducting polymer composites of polyethylene and polypyrrole (PE/ PPy), polypropylene and polypyrrole (PP/PPy) and poly(methyl methacrylate) and polypyrrole (PPMA/PPy) were prepared by means of a chemical modiÐcation method resulting in a network-like structure of polypyrrole embedded in the insula

Two methods of obtaining electrically conductive fabrics by in situ polymerization of aniline were compared. Conductive fabrics were prepared by immersing the nylon 6 fabrics in 100% aniline or an aqueous hydrochloride solution of aniline followed by initiating successive polymerization in a separat