Superionic conductors

1 September 1978

journal article
research article
Published by Taylor & Francis in Contemporary Physics

Vol. 19 (5) , 469-486
https://doi.org/10.1080/00107517808210895

Abstract

Superionic conductors have high ionic conductivity because of extensive disorder in a component sublattice of the solid. Knowledge of the nature and extent of the disorder and its dynamics is essential for detailed understanding of superionic behaviour. The present article contains an outline of experimental techniques used to obtain this knowledge and describes results of their application to a variety of superionic materials.

Keywords

SUPERIONIC CONDUCTORS

This publication has 45 references indexed in Scilit:

Fast ionic conductors
Contemporary Physics, 1978
Crystal-Field-Fluctuation Dynamics in Superionic Conductors: EPR of ${Mn}^{2 +}$ in Pb $F_{2}$
Physical Review Letters, 1977
Single-crystal neutron-diffraction study of AgI between 23° and 300°C
Solid State Communications, 1977
Magnetic "Tagging" of Superionic Conductors
Physical Review Letters, 1977
Raman scattering from sodium and silver in β-alumina
Solid State Communications, 1976
Calculation of the phonon spectra of $β$ -alumina
Physical Review B, 1976
Ionic Conductivity near an Order-Disorder Transition: Rb ${Ag}_{4}$ $I_{5}$
Physical Review Letters, 1976
Diffuse neutron scattering from β- and α-AgI
Physica Status Solidi (a), 1975
The lattice dynamics of strontium fluoride
Journal of Physics C: Solid State Physics, 1972
Conductivity of Beta-Alumina and Its Dependence on Sodium and Magnesium Content
Journal of the Electrochemical Society, 1972