Nanoionics: Principles of ceramic materials fabrication for electrochemical power generation

This paper examines the possibilities of using nanoionics principles in developing the technology of novel materials for electrochemical power generation. We analyze data on ceramic membranes with increased oxygen or lithium ion conductivity for cathodes of lithium ion batteries and components of so...

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Veröffentlicht in:	Inorganic materials 2016, Vol.52 (1), p.83-88
Hauptverfasser:	Pervov, V. S., Ovchinnikova, S. I., Medvedeva, A. E., Makhonina, E. V., Kireeva, N. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cathodes Ceramics Chemistry Chemistry and Materials Science Devices Industrial Chemistry/Chemical Engineering Inorganic Chemistry Lithium Materials Science Nanostructure Power generation Rechargeable batteries Solid oxide fuel cells
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creator	Pervov, V. S. Ovchinnikova, S. I. Medvedeva, A. E. Makhonina, E. V. Kireeva, N. V.
description	This paper examines the possibilities of using nanoionics principles in developing the technology of novel materials for electrochemical power generation. We analyze data on ceramic membranes with increased oxygen or lithium ion conductivity for cathodes of lithium ion batteries and components of solid oxide fuel cells. It is shown that, to improve the power characteristics of such electrochemical devices, use can be made of completely amorphous nanocomposites produced using synthetic techniques that take into account controlled incommensurability of the structures of interacting components. We assess the potential advantages of using the concepts of “mixed” and nonautonomous phases forming in eutectic and eutectoid systems obtained using electrochemically active inorganic structures.
doi_str_mv	10.1134/S002016851601012X
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subjects	Cathodes Ceramics Chemistry Chemistry and Materials Science Devices Industrial Chemistry/Chemical Engineering Inorganic Chemistry Lithium Materials Science Nanostructure Power generation Rechargeable batteries Solid oxide fuel cells
title	Nanoionics: Principles of ceramic materials fabrication for electrochemical power generation
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