Resistive switching in TiO2 nanocolumn arrays electrochemically grown

conference paper

English

Resistive switching in metal oxides, especially in TiO2, has been intensively investigated for potential application in non-volatile memory microdevices. As one of the working mechanisms, a conducting filament consisting of a substoichiometric oxide phase is created within the oxide layer. With the aim of investigating the filament formation in spatially confined elements, we fabricate arrays of self-ordered TiO2 nanocolumns by porous-anodic-alumina (PAA)-assisted anodizing, incorporate them into solid-state microdevices, study their electron transport properties, and reveal that this anodizing approach is suitable for growing TiO2 nanostructures exhibiting resistive switching. The electrical properties and resistive switching behavior are both dependent on the electrolytic formation conditions, influencing the concentration and distribution of oxygen vacancies in the nanocolumn material during the film growth. Therefore, the PAA-assisted TiO2 nanocolumn arrays can be considered as a platform for investigating various phenomena related to resistive switching in valve metal oxides at the nanoscale.

resistive switching, anodization, porous anodic alumina, titanium dioxide

MÁRIK, M.; MOZALEV, A.; HUBÁLEK, J.; BENDOVÁ, M.

21. 4. 2017

IOP Publishing

BRISTOL, ENGLAND

1742-6588

Journal of Physics: Conference Series

829

1

United Kingdom of Great Britain and Northern Ireland

012001

012001

6

http://iopscience.iop.org/article/10.1088/1742-6596/829/1/012001

http://hdl.handle.net/11012/137092