Impedance switching for neural recording with ferroelectric microelectrodes

Author:

Becker Maximilian T.1ORCID,Oldroyd Poppy2ORCID,Strkalj Nives1ORCID,Müller Moritz L.1ORCID,Malliaras George G.2ORCID,MacManus-Driscoll Judith L.1ORCID

Affiliation:

1. Department of Materials Science & Metallurgy, University of Cambridge 1 , 27 Charles Babbage Road, Cambridge CB3 OFS, United Kingdom

2. Department of Engineering, University of Cambridge 2 , 9 JJ Thomson Avenue, Cambridge CB3 OFA, United Kingdom

Abstract

We demonstrate ferroelectric and bipolar impedance switching behavior in 18-nm-thick epitaxial BaTiO3 (BTO) films in an electrolyte–ferroelectric–semiconductor (EFS) configuration. The system is explored for its potential as a ferroelectric microelectrode in bioelectronics. Cyclic voltammetry measurements in EFS configuration, with a phosphate-buffered saline solution acting as the liquid electrolyte top contact, indicate characteristic ferroelectric switching peaks in the bipolar current–voltage loop. Moreover, small-signal electrochemical impedance spectroscopy measurements (applied root mean square voltage VRMS = 10 mV) on pre-poled EFS devices indicate bipolar impedance switching behavior. Also, a maximum ratio of the two different impedance magnitudes of ∼1.5 was observed at frequency f = 100 Hz. The observed impedance switching corresponds to a resistive switching effect, which could be explained by the modulation of the space charge region at the BTO/electrolyte interface via fixed ferroelectric polarization charges. Our approach represents a key step toward neural recordings with ferroelectric microelectrodes.

Funder

European Research Council

Royal Academy of Engineering

Engineering and Physical Sciences Research Council

Swiss National Science Foundation

Publisher

AIP Publishing

Subject

Physics and Astronomy (miscellaneous)

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