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Enhancement of the Electrical Properties of BaTiO3 Films on GaAs Using Double Layer Structures

Published online by Cambridge University Press:  15 February 2011

L.H. Chang  and
W.A. Anderson
L.H. Chang
Affiliation:
State University of New York at Buffalo, Center of the Electronic and Electro-Optic Materials, Department of Electrical and Computer Engineering, Bonner Hall, Buffalo, NY 14260
W.A. Anderson
Affiliation:
State University of New York at Buffalo, Center of the Electronic and Electro-Optic Materials, Department of Electrical and Computer Engineering, Bonner Hall, Buffalo, NY 14260
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Abstract

Ferroelectric BaTiO3 thin films have been directly deposited on n-GaAs with carrier concentration of 5.3–8.2×1017/cm2. The BaTiO3 thin films with a thickness in the range of 80–120 nm were prepared by RF magnetron sputtering with a substrate temperature of 300°C. The as-deposited BaTiO3 films appeared to be amorphous with relative dielectric constants of around 15 and gave flat capacitance-voltage (C-V) curves, indicating poor interface properties and very high oxide charge density. After rapid thermal annealing (RTA) at 800°C for 60 sec, the relative dielectric constant of the BaTiO3 film increased to 82 and a sharp C-V curve was observed with oxide charge density of about 7×1012/cm2. However, the leakage current density increased from 4×10'11 A/cm2 for as-deposited BaTiO3 to 2×105 A/cm2 for RTA(800°C)-BaTiO3 at a field of 4×105 V/cm. By taking advantage of the best properties from both as-deposited amorphous BaTiO3 films (low leakage current density) and RTA(800°C)-BaTiO3 (high dielectric constant) the double layer structure was designed to enhance the electrical properties of the BaTiO3 films on GaAs. The most promising results in regards to the dielectric property and leakage current density are 76.5 and 9.7×109 A/cm2, respectively, for the double layer RTA(500°C)-BaTiO3 on RTA(800°C)-BaTiO3 structures.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 361: Symposium I2 – Ferroelectric Thin Films IV , 1994 , 489
Copyright
Copyright © Materials Research Society 1995

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References

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