Use of epitaxial PZT thin films for La2/3Sr1/3MnO3 based MEMs devices on SrTiO3/Si
Résumé
Lead zirconate titanate Pb(Zr,Ti)O 3 (PZT) is a well know ferroelectric material with excellent piezoelectric properties, namely large piezoelectric coefficients, low leakage current and reliable performance, which makes it very suitable as an actuator material in Micro-ElectroMechanical Systems (MEMS). The performance of piezoelectric MEMS is, however, strongly dependent on the film quality. In the present work, the epitaxial growth of PZT is desired as it can help to reduce high-frequency losses, to allow for larger electromechanical coupling and to increase the final device sensitivity. We used an epitaxially grown conductive oxide bottom electrode, namely 45 nm thick La 2/3 Sr 1/3 MnO 3 (LSMO) films, deposited on SrTiO 3 buffered (001) silicon substrates using a combination of pulsed laser deposition and reactive molecular beam epitaxy techniques. The 500 nm thick c-axis oriented PZT layers were deposited at 600°C by magnetron sputtering on the LSMO films on STO/Si (001). The piezoelectric and ferroelectric properties of the PZT layers were studied by PiezoForce Microscopy on as-grown PZT films and Polarization versus Electric field measurements on samples covered with Pt top electrodes. The PZT films exhibited good piezoelectric and ferroelectric properties with a remanent polarization higher than 20 µC·cm −2 , which makes them suitable for the fabrication of piezoelectric MEMS based on doubly-clamped LSMO suspended structures.
Mots clés
Micromechanical devices
Magnetic films
Fabrication
Electrodes
Voltage measurement
Magnetic field measurement
Measurement by laser beam
Dielectric losses
Dielectric polarisation
Electromechanical electrodes
Electromechanical effects
Epitaxial growth
Expitaxial layers
Lanthanum compounds
Lead compounds
Molecular beam epitaxial growth
Piezoelectric thin films
Pulsed laser deposition
Sputter deposition
Strontium compounds
Zirconium compounds
Epitaxial PZT
Piezoelectric MEMS
Oxide electrodes
PFM
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