Katsuro Nagaoka scite author profile

The electrical conductivity of hybrid films consisting of polyacrylonitrile (PAN), ethylene carbonate (EC), and LiClO4 was investigated. In these films, EC and LiClO4 are found to be molecularly dispersed in PAN, forming solid solutions over a wide composition range. The ionic character of the electrical conductivity is demonstrated. The conductivity is not correlated with the content of LiClO4 or of PAN, but primarily with the mole ratio [EC]/[LiClO4] in the films. An increase in the [EC]/[LiClO4] ratio enhances the conductivity. When the ratio is about 2, the conductivity attains 10−4–10−5 S cm−1 at 25°C. This change in conductivity results from a change in carrier mobility. PAN makes the films solid without decreasing the carrier mobility. In the hybrid films, the carrier mobility and the macroscopic viscosity are not related by Walden's rule. The high conductivity is due to regions in the film characterized by a low microscopic viscosity. This is determined by the mole ratio [EC]/[LiClO4] and largely controls the carrier mobility.

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Ionic conductivity of hybrid films based on polyacrylonitrile and their battery application

Watanabe

Kanba

Nagaoka

et al. 1982

J of Applied Polymer Sci

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SynopsisThe alternate current (AC) and direct current (DC) ionic conductivity of hybrid films composed of polyacrylonitrile (PAN), lithium perchlorate (LiC104). and a plasticizer was studied. Three kinds of the plasticizer [ethylene carbonate (EC), propylene carbonate (PC), NJV-dimethylformamide (DMF)] were used. Suitability of these hybrid films for lithium battery was investigated. The AC conductivity, which represents bulk ionic conductivity, was dependent on the component and the composition of the hybrid films, ranging from 10-4-10-8 S-crn-'. The AC conductivity was mainly determined by the molar ratio of [plasticizer]/[LiC104] in the hybrid films and increased with the increase in this ratio. The effect of the plasticizer on the enhancement in the AC conductivity was in the following order: Dh4F > EC > PC. The hybrid films with both electrodes of lithium showed the stable DC conductivity of about 1/10 of the AC conductivity, except for the hybrid films containing Dh4F. The hybrid films were found to be effective as a lithium ionic conductor. The galvanic cell, Li/sample/MnOn, at the discharge current density of 90 pA/cm2 showed-the stable electromotive force of about 3 V for 70 h.

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Ionic Conductivity of Polymeric Solid Electrolytes Based on Poly(propylene oxide) or Poly(tetramethylene oxide)

Watanabe

Nagaoka

Kanba

et al. 1982

Polym J

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Katsuro Nagaoka

High ionic conductivity in poly(dimethyl siloxane‐co‐ethylene oxide) dissolving lithium perchlorate

Ionic conductivity of hybrid films composed of polyacrylonitrile, ethylene carbonate, and LiClO₄

Ionic conductivity of hybrid films based on polyacrylonitrile and their battery application

Ionic Conductivity of Polymeric Solid Electrolytes Based on Poly(propylene oxide) or Poly(tetramethylene oxide)

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Katsuro Nagaoka

High ionic conductivity in poly(dimethyl siloxane‐co‐ethylene oxide) dissolving lithium perchlorate

Ionic conductivity of hybrid films composed of polyacrylonitrile, ethylene carbonate, and LiClO4

Ionic conductivity of hybrid films based on polyacrylonitrile and their battery application

Ionic Conductivity of Polymeric Solid Electrolytes Based on Poly(propylene oxide) or Poly(tetramethylene oxide)

Contact Info

Product

Resources

About

Ionic conductivity of hybrid films composed of polyacrylonitrile, ethylene carbonate, and LiClO₄