Univerzita PardubiceFakulta chemicko- technologická

Univerzita Pardubice

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Publikace detail

ELECTROCHEMICAL METALIZATION CELLS BIG STEP FROM NANOIONICS TO NANOELECTRONICS

Autoři: Wágner Tomáš | Kolář Jakub | Valkova Silvie | Voleská Iva | Krbal Miloš | Macák Jan | Frumar Miloslav

Rok: 2012

Druh publikace: ostatní do riv

Strana od-do: nestránkováno

Tituly:

Jazyk	Název	Abstrakt	Klíčová slova
cze	ELECTROCHEMICAL METALIZATION CELLS BIG STEP FROM NANOIONICS TO NANOELECTRONICS	A range of material systems exist in which nanoscale ionic transport and redox reactions provide the essential for memristive switching. One class relies on mobile cations, which are easily created by electrochemical oxidation of the corresponding electrode metal, transported in the insulating layer, and reduced at the inert counter electrode. These devices are termed electrochemical metallization memories (EMC) or conductive bridge random access memories. The material candidates for electrolytes in such devides have been recently studied. They are amorphous chalcogenides and also oxides (SiO2, WO3, TiO2 and others) containing metal elements (Ag, Cu) or their compounds (Ag2S, CuS) and gaining some portion of ionic conductivity and becoming mixed ionic-electronic conductors.	chalkogenidy; nanoelektronika
eng	ELECTROCHEMICAL METALIZATION CELLS BIG STEP FROM NANOIONICS TO NANOELECTRONICS	A range of material systems exist in which nanoscale ionic transport and redox reactions provide the essential for memristive switching. One class relies on mobile cations, which are easily created by electrochemical oxidation of the corresponding electrode metal, transported in the insulating layer, and reduced at the inert counter electrode. These devices are termed electrochemical metallization memories (EMC) or conductive bridge random access memories. The material candidates for electrolytes in such devides have been recently studied. They are amorphous chalcogenides and also oxides (SiO2, WO3, TiO2 and others) containing metal elements (Ag, Cu) or their compounds (Ag2S, CuS) and gaining some portion of ionic conductivity and becoming mixed ionic-electronic conductors.	chalcogenides; electrochemical metallization cell; nanoelectronics