Issue 37, 2018

Giant resistive switching in mixed phase BiFeO3via phase population control

Abstract

Highly-strained coherent interfaces, between rhombohedral-like (R) and tetragonal-like (T) phases in BiFeO3 thin films, often show enhanced electrical conductivity in comparison to non-interfacial regions. In principle, changing the population and distribution of these interfaces should therefore allow different resistance states to be created. However, doing this controllably has been challenging to date. Here, we show that local thin film phase microstructures (and hence R–T interface densities) can be changed in a thermodynamically predictable way (predictions made using atomistic simulations) by applying different combinations of mechanical stress and electric field. We use both pressure and electric field to reversibly generate metastable changes in microstructure that result in very large changes of resistance of up to 108%, comparable to those seen in Tunnelling Electro-Resistance (TER) devices.

Graphical abstract: Giant resistive switching in mixed phase BiFeO3via phase population control

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
05 May 2018
Accepted
01 Sep 2018
First published
03 Sep 2018
This article is Open Access
Creative Commons BY license

Nanoscale, 2018,10, 17629-17637

Giant resistive switching in mixed phase BiFeO3via phase population control

D. Edwards, N. Browne, K. M. Holsgrove, A. B. Naden, S. O. Sayedghaee, B. Xu, S. Prosandeev, D. Wang, D. Mazumdar, M. Duchamp, A. Gupta, S. V. Kalinin, M. Arredondo, R. G. P. McQuaid, L. Bellaiche, J. M. Gregg and A. Kumar, Nanoscale, 2018, 10, 17629 DOI: 10.1039/C8NR03653E

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