Ionic Conductor Composites: Theory and Materials
نویسنده
چکیده
The main theoretical concepts on ionic conduction at interfaces, especially the space charge layer model, are summarized in the ®rst part of this review: ion trapping or redistribution leads to charge carrier accumulation, depletion or inversion and, consequently, to conductivity changes in composite materials. Experimental con®rmations of the space charge layer model and the complementary percolation model are discussed. Major developments of ionic conductor composite materials over the last 25 years are presented in the second part, including lithium and other alkaline ion conductors, copper and silver ion conductors, diand trivalent cation and anion conductors, glass and polymer composites. Some future trends and research needs are indicated in conclusion.
منابع مشابه
Enhanced conductivity in ionic conductor-insulator composites: numerical models in two and three dimensions
We describe a two-dimensional (2D) and a three-dimensional (3D) percolation model for ionic conductor-insulator composites such as copper(I) bromide-titanium dioxide (CuBr-TiO2) or lithium iodidealumina (LiI-Al2O3). These composites present an enhanced conductivity closely related to the insulator concentration. This effect is explained by the formation of highly conducting space charge regions...
متن کاملDielectric resonances in disordered media
Binary disordered systems are usually obtained by mixing two ingredients in variable proportions: conductor and insulator, or conductor and super-conductor. They present very specific properties, in particular the second-order percolation phase transition, with its fractal geometry and the multi-fractal properties of the current moments. These systems are naturally modeled by regular bi-dimensi...
متن کاملLayer-by-layer self-assembled conductor network composites in ionic polymer metal composite actuators with high strain response
polymer metal composite actuators with high strain response Sheng Liu, Reza Montazami, Yang Liu, Vaibhav Jain, Minren Lin, James R. Heflin, and Q. M. Zhang Department of Electrical Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802, USA Department of Materials Science and Engineering, Virginia Tech, Blacksburg, Virginia 24061, USA Macromolecular Science and Engi...
متن کاملEnhancing grain boundary ionic conductivity in mixed ionic–electronic conductors
Mixed ionic-electronic conductors are widely used in devices for energy conversion and storage. Grain boundaries in these materials have nanoscale spatial dimensions, which can generate substantial resistance to ionic transport due to dopant segregation. Here, we report the concept of targeted phase formation in a Ce0.8Gd0.2O2-δ-CoFe2O4 composite that serves to enhance the grain boundary ionic ...
متن کاملOn the Origin of Transport Non-Universality and Piezoresistivity in Segregated Conductor-Insulator Composites and Application to Thick-Film Resistors
In this thesis we address the description of electrical transport properties of disordered conductor-insulator composites, mostly by numerical Monte Carlo simulations and analytical study of realistic tunnelling-percolation models. Such composites are basically constituted by conducting particles dispersed in an insulating matrix and present a conductor-insulator phase transition, with critical...
متن کامل