Effect of resistive switching and electrically driven insulator-conductor transition in PbZrO3 single crystals

In this work, the results of detailed investigations of classical current–voltage characteristics measured both on the macro‐ and nanoscale with the use of LC‐AFM microscopy are presented. With decreasing frequencies abnormal hysteresis I(V) loops in a PbZrO3 single crystal were observed, showing a...

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Published in:Physica status solidi. A, Applications and materials science Applications and materials science, 2013-03, Vol.210 (3), p.507-512
Main Authors: Jankowska-Sumara, Irena, Szot, Krzysztof, Majchrowski, Andrzej, Roleder, Krystian
Format: Article
Language:English
Subjects:
defects
ferroelectricity
resistive switching
Single crystals
Studies
surface properties
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container_title Physica status solidi. A, Applications and materials science
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Szot, Krzysztof
Majchrowski, Andrzej
Roleder, Krystian
description In this work, the results of detailed investigations of classical current–voltage characteristics measured both on the macro‐ and nanoscale with the use of LC‐AFM microscopy are presented. With decreasing frequencies abnormal hysteresis I(V) loops in a PbZrO3 single crystal were observed, showing a bipolar resistive switching behavior. The observed phenomena have been accounted for by the nonstoichiometry and defects produced electrochemically in the surface layers. Due to the nonstoichiometric composition of the crystal surface we showed the possibility of reversible transformation from an insulating to a conducting state in an antiferroelectric crystal by an electroforming process. The model of filamentary structure produced by extended defects and an electrochemical process is applied here to explain the data.
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subjects defects
ferroelectricity
resistive switching
Single crystals
Studies
surface properties
title Effect of resistive switching and electrically driven insulator-conductor transition in PbZrO3 single crystals
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