PZT Thin-Film Meso- and Micro Devices

Abstract: This paper consists of three major topics. The first topic is a review of challenges encountered in PZT thin

“…Previous work on multilayer piezoelectric bending actuators has mostly focused on thin-film piezoelectrics [4,5], which are appropriate for micro-scale devices but typically do not have sufficient output power for mm-cm scale devices. Additionally, bulk piezoelectrics generally have higher piezoelectric coefficients and are not limited to mm-size crack-free areas [6,7]. There have been several reports of multilayer bending actuators made with bulk materials, such as [8].…”

Multilayer laminated piezoelectric bending actuators: design and manufacturing for optimum power density and efficiency

“…Previous work on multilayer piezoelectric bending actuators has mostly focused on thin-film piezoelectrics [4,5], which are appropriate for micro-scale devices but typically do not have sufficient output power for mm-cm scale devices. Additionally, bulk piezoelectrics generally have higher piezoelectric coefficients and are not limited to mm-size crack-free areas [6,7]. There have been several reports of multilayer bending actuators made with bulk materials, such as [8].…”

Multilayer laminated piezoelectric bending actuators: design and manufacturing for optimum power density and efficiency

“…Although sol-gel processes have been successfully used for many years, there remain tremendous challenges, such as defects (cracks and delamination), which effect the properties of PZT films. The sol-gel PZT films often consist of multiple coating in which each coating ranges from 15 to 100 nm in thickness [27], and the corresponding crackfree area is about 1 mm 2 [28,29]. The cracks are so densely populated and then the crack-free area is decreased with increasing number of coating layers (the sol-gel PZT film becomes virtually useless with film thickness exceeding 1 mm, as the crack-free area is so tiny [27]).…”

“…The sol-gel PZT films often consist of multiple coating in which each coating ranges from 15 to 100 nm in thickness [27], and the corresponding crackfree area is about 1 mm 2 [28,29]. The cracks are so densely populated and then the crack-free area is decreased with increasing number of coating layers (the sol-gel PZT film becomes virtually useless with film thickness exceeding 1 mm, as the crack-free area is so tiny [27]). In the piezoelectric thin film devices, such as membrane actuators and cantilevers, the obtained uniform and homogeneous PZT films with thickness of 0.75-1.00 mm and over a large area (2 cm 2 ) are required [30].…”

Effect of dopants on ferroelectric and piezoelectric properties of lead zirconate titanate thin films on Si substrates

“…In recent years, significant practical research on ferroelectric thin films as element materials for high-performance ferroelectric random access memory (FeRAM) devices 1,2) and microactuators, 3,4) has been actively carried out. Although lead-based element materials have heretofore been used for electronic components, the use of lead is a significant public concern from the viewpoint of global environment conservation.…”

Growth of Perovskite (Bi, Ln)(Ni_0.5Ti_0.5)O₃ Thin Films by RF Magnetron Sputtering