Control of local ion transport to create unique functional nanodevices based on ionic conductors

The development of nanometer-scale devices operating under a new principle that could overcome the limitations of current semiconductor devices has attracted interest in recent years. We propose that nanoionic devices that operate by controlling the local transport of ions are promising in this rega...

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Bibliographic Details
Main Author: Kazuya Terabe, Tsuyoshi Hasegawa, Changhao Liang and Masakazu Aono
Format: Article
Language:English
Published: Taylor & Francis Group 2007-01-01
Series:Science and Technology of Advanced Materials
Online Access:http://www.iop.org/EJ/abstract/1468-6996/8/6/A15
Description
Summary:The development of nanometer-scale devices operating under a new principle that could overcome the limitations of current semiconductor devices has attracted interest in recent years. We propose that nanoionic devices that operate by controlling the local transport of ions are promising in this regard. It is possible to control the local transport of ions using the solid electrochemical properties of ionic and electronic mixed conductors. As an example of this concept, here, we report a method of controlling the transport of silver ions of the mixed-conductor silver sulfide (Ag2S) crystal and basic research on nanoionic devices based on this mixed conductor. These devices show unique functions such as atom deposition, resistance switching, and quantum point contact switching. The switches operate through the formation and dissolution of an atomic bridge between the electrodes, and the behavior is realized by control of the local solid-state electrochemical reaction. Potential nanoionic devices utilizing the unique functions and characters that do not exist in conventional semiconductor devices are discussed.
ISSN:1468-6996
1878-5514