We suggest that ionic conductors containing a dispersed insulating phase are suitable materials for investigating static and kinetic aspects of percolation. We develop a lattice model for the two-phase mixture with special emphasis on the role of an enhanced interface conductivity. By using two-dimensional Monte Carlo simulations we show that our model correctly describes the distinct conduction properties of those materials, and in addition displays the critical behavior of both random-superconducting and random-resistor networks at two different critical concentrations. © 1985 The American Physical Society.
Bunde, A., Dieterich, W., Roman, E. (1985). Dispersed ionic conductors and percolation theory. PHYSICAL REVIEW LETTERS, 55(1), 5-8 [10.1103/PhysRevLett.55.5].
Dispersed ionic conductors and percolation theory
Roman E.
1985
Abstract
We suggest that ionic conductors containing a dispersed insulating phase are suitable materials for investigating static and kinetic aspects of percolation. We develop a lattice model for the two-phase mixture with special emphasis on the role of an enhanced interface conductivity. By using two-dimensional Monte Carlo simulations we show that our model correctly describes the distinct conduction properties of those materials, and in addition displays the critical behavior of both random-superconducting and random-resistor networks at two different critical concentrations. © 1985 The American Physical Society.
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