Paul Muralt scite author profile

This paper reviews deposition, integration, and device fabrication of ferroelectric PbZr x Ti 1−x O 3 (PZT) films for applications in microelectromechanical systems. As examples, a piezoelectric ultrasonic micromotor and pyroelectric infrared detector array are presented. A summary of the published data on the piezoelectric properties of PZT thin films is given. The figures of merit for various applications are discussed. Some considerations and results on operation, reliability, and depolarization of PZT thin films are presented.

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Thin Film Piezoelectrics for MEMS

Trolier-McKinstry¹,

Muralt

2004

Journal of Electroceramics

933

381

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{1 0 0}-Textured, piezoelectric Pb(Zrx, Ti1−x)O3 thin films for MEMS: integration, deposition and properties

Ledermann

Muralt

Baborowski

et al. 2003

Sensors and Actuators A: Physical

378

228

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PZT thin films for microsensors and actuators: Where do we stand?

Muralt

2000

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

347

200

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This paper reviews deposition, integration, and device fabrication of PbZr(x)Ti(1-x)O(3) (PZT) films for applications in micro-electromechanical systems. An ultrasonic micromotor is described as an example. A summary of the published data on piezoelectric properties is given. The figures of merit for various applications are discussed. Some considerations and results on operation, reliability, and depolarization of PZT thin films are presented. The state of the art allows some preliminary conclusions.

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Properties of aluminum nitride thin films for piezoelectric transducers and microwave filter applications

1999

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Aluminum nitride thin films have been grown by reactive magnetron sputter technique using a pulsed power supply. The highly (002)-textured columnar films deposited on platinized silicon substrates exhibited quasi-single-crystal piezoelectric properties. The effective d33 was measured as 3.4 pm/V, the effective e31 as 1.0 C/m2. The pyroelectric coefficient turned out to be positive (4.8 μC m−2 K−1) due to a dominating piezoelectric contribution. Thin-film bulk acoustic resonators (TFBAR) with fundamental resonance at 3.6 GHz have been fabricated to assess resonator properties. The material parameters derived from the thickness resonance were a coupling factor k=0.23 and a sound velocity vs=11 400 m/s. With a quality factor Q of 300, the TFBARs proved to be apt for filter applications. The temperature coefficient of the frequency could be tuned to practically 0 ppm/K.

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Paul Muralt

Ferroelectric thin films for micro-sensors and actuators: a review

Thin Film Piezoelectrics for MEMS

{1 0 0}-Textured, piezoelectric Pb(Zrx, Ti1−x)O3 thin films for MEMS: integration, deposition and properties

PZT thin films for microsensors and actuators: Where do we stand?

Properties of aluminum nitride thin films for piezoelectric transducers and microwave filter applications

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