Electrical qualities of materials have supported our convenient everyday existence since the discovery of electricity, and "electrical conduction" has been one of the most important properties of materials. In materials, there are two types of electrical conduction: electronic conduction, which uses electrons or holes as charge carriers, and ionic conduction, which uses ions as charge carriers. Superionic conductors, often known as solid electrolytes, are a class of materials that have ionic conductivity similar to strong liquid electrolytes despite being solid. Solid electrolytes provide several advantages over liquid electrolytes, including the lack of liquid containment and leakage issues, the ability to use highly reactive electrodes over a larger temperature range, and the ability to miniaturise utilising thin-film processing techniques. Because of the ever-increasing need for superionic conductors, solid state ionic is currently a focus area. The most extensively used approach for preparing superionic conductors is a direct reaction in the solid state known as solid state reaction. Though solid state reactions have long been recognised, it has only been in the last few decades that researchers have focused their efforts both experimentally and conceptually on uncovering the secrets of crystal atomic structures and reactivity.
Author(S) Details
Mora Veera Madhava Rao
Department of Physics, Osmania University, Hyderabad, India.
View Book:- https://stm.bookpi.org/RTCPS-V2/article/view/4489
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