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Electrical properties of BaTiO3 based ferroelectric capacitors grown on oxide sacrificial layers for micro-cantilevers applications

Vasta, Giuseppe and Jackson, Timothy J. and Tarte, Edward (2012) Electrical properties of BaTiO3 based ferroelectric capacitors grown on oxide sacrificial layers for micro-cantilevers applications. Thin Solid Films, 520 (7). pp. 3071-3078. ISSN 00406090

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URL of Published Version: http://dx.doi.org/10.1016/j.tsf.2011.11.032

Identification Number/DOI: doi:10.1016/j.tsf.2011.11.032

An investigation of all oxides ferroelectric capacitors based on \(SrRuO_3/BaTiO_3/SrRuO_3\) multi-layers grown on sacrificial oxide layers of \(YBa_2Cu_3O_7\)
and MgO for Micro-Electo-Mechanical systems applications is reported. By insertion of additional MgO or \(SrTiO_3\) buffer layers the orientation of the \(BaTiO_3\) film can be controlled allowing the fabrication of suspended cantilevers using the 31 and the 33 piezoelectric modes. The electrical properties of \(SrRuO_3/BaTiO_3/SrRuO_3\) capacitors are changed compared with those grown directly on a single crystal substrate by the introduction of sacrificial layers. Circuit modeling of the electrical characteristics of these devices shows that a reduction of the deposition pressure for \(BaTiO_3\) produces a decrease of the parasitic shunting conductance (modeled with a resistor in parallel to the capacitance of the device) which reduces the resistive loss present in the \(BaTiO_3\) film. However for extremely low deposition pressure the quality of the polarization hysteresis loops is compromised.
Particulates present on the surface of the \(YBa_2Cu_3O_7\)increases the parasitic conductance at low frequency in the capacitive structure grown on this sacrificial layer. Good electrical properties are obtained for the capacitive structures grown on top of the MgO sacrificial layers at pressures equal or lower than 8 Pa.

Type of Work:Article
Date:2012 (Publication)
School/Faculty:Colleges (2008 onwards) > College of Engineering & Physical Sciences
Department:School of Electrical Electronic and Computer Engineering
Subjects:T Technology (General)
TA Engineering (General). Civil engineering (General)
TK Electrical engineering. Electronics Nuclear engineering
Institution:University of Birmingham
Copyright Holders:Elsevier
ID Code:1026
Refereed:YES
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